Denise Fungaro | Chemistry | Distinguished Scientist Award

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Prof. Dr. Denise Fungaro | Chemistry | Distinguished Scientist Award

Researcher from Institute of Energy and Nuclear Research, Brazil

Dr. Denise Alves Fungaro is a distinguished researcher in environmental chemistry with a strong focus on sustainable materials and waste valorization. She is currently a researcher at the Nuclear and Energy Research Institute in São Paulo, Brazil. Her work has significantly contributed to the development of innovative materials from industrial and agricultural waste, particularly in the synthesis of zeolites and silica-based materials. Over the years, she has established herself as a leading scientist in environmental sustainability, with a strong publication record, numerous patents, and an extensive history of mentoring students. Her contributions have been recognized both nationally and internationally, earning her several prestigious awards. Dr. Fungaro’s research not only advances scientific knowledge but also provides practical solutions for waste management, water treatment, and environmental conservation. With over 80 publications and multiple industry partnerships, she has successfully combined scientific innovation with real-world applications. Her leadership in academic initiatives, including the Planetary Health Ambassadors Program at the University of São Paulo, further underscores her commitment to education and sustainability. Through her extensive research, mentorship, and industry collaborations, Dr. Fungaro has demonstrated excellence in her field, making her a well-respected figure in environmental research and material science.

Professional Profile

Education

Dr. Fungaro has an extensive academic background in chemistry, specializing in analytical and environmental chemistry. She obtained her Bachelor’s degree in Chemistry from the University of São Paulo in 1983, followed by a Master’s degree in Analytical Chemistry from the same institution in 1987. Her commitment to advancing scientific knowledge led her to pursue a PhD in Analytical Chemistry at the University of São Paulo, which she completed in 1994. Her doctoral research focused on innovative chemical analysis techniques that laid the foundation for her later work in environmental applications. To further expand her expertise, she completed a postdoctoral fellowship at Coimbra University in Portugal in 1998, where she deepened her knowledge of sustainable materials and advanced analytical methods. This diverse academic background provided her with a strong foundation in both theoretical and applied chemistry, equipping her with the skills necessary to tackle pressing environmental challenges. Her education has been instrumental in shaping her research direction, enabling her to bridge the gap between chemistry and environmental sustainability.

Professional Experience

Dr. Fungaro has built an impressive career as a researcher, primarily focusing on environmental chemistry and material science. She is currently a researcher at the Nuclear and Energy Research Institute (IPEN) in São Paulo, Brazil, where she has worked for several years. In this role, she has led multiple research projects aimed at developing sustainable solutions for waste management and environmental remediation. Throughout her career, she has actively collaborated with academic institutions, governmental organizations, and industry partners to advance research in sustainable materials. Her expertise has also led her to serve as a mentor, having supervised 17 master’s students and 6 PhD candidates. She has also been an active participant in scientific committees, editorial boards, and international conferences. As the coordinator of the Planetary Health Ambassadors Program at the Institute of Advanced Studies of the University of São Paulo, she has played a key role in promoting environmental awareness and sustainability initiatives. Her professional experience is marked by a combination of research excellence, mentorship, and leadership, making her a respected figure in both academic and industrial scientific communities.

Research Interests

Dr. Fungaro’s primary research interests lie in environmental chemistry, waste valorization, and sustainable materials development. She is particularly focused on the synthesis of zeolites from industrial byproducts, such as coal fly ash, to be used in environmental applications, including wastewater treatment and air pollution control. Her work also extends to the development of high-purity silica gel and nanosilica from sugarcane biomass ash, which has significant potential for commercialization. Another key area of her research involves bioplastics and biodegradable films, where she investigates the role of renewable silica powder in improving the properties of starch-based plastics. Additionally, she has explored the use of mesoporous materials for removing contaminants like pharmaceuticals and heavy metals from water sources. Her research is deeply interdisciplinary, integrating analytical chemistry, environmental science, and material engineering to address global sustainability challenges. Through her work, Dr. Fungaro aims to provide practical, scalable solutions that contribute to environmental conservation and resource efficiency.

Research Skills

Dr. Fungaro possesses a diverse and advanced skill set in analytical chemistry, materials science, and environmental engineering. She is highly proficient in synthesizing and characterizing advanced materials, particularly zeolites and silica-based compounds derived from industrial waste. Her expertise in waste valorization has enabled her to develop sustainable materials with applications in water treatment, pollution control, and eco-friendly construction. She is skilled in advanced spectroscopic and chromatographic techniques, such as X-ray diffraction (XRD), scanning electron microscopy (SEM), Fourier-transform infrared spectroscopy (FTIR), and gas chromatography-mass spectrometry (GC-MS), which are essential for analyzing material properties. Dr. Fungaro also has significant experience in chemical process development, from laboratory-scale experimentation to pilot-scale implementation. Additionally, she has strong research project management skills, successfully leading multi-institutional collaborations and industry partnerships. Her ability to combine theoretical research with practical applications demonstrates her innovative approach to addressing environmental challenges.

Awards and Honors

Dr. Fungaro has received numerous national and international awards in recognition of her contributions to environmental chemistry and sustainable materials research. Some of her most notable accolades include the Kurt Politzer Award for Technology (2016), awarded for her groundbreaking work on high-purity silica gel and nanosilica from sugarcane biomass ash. She also won the International Cannes Water Great Prize (2006) for her research on using synthesized zeolites for wastewater decontamination. In 2023, she was honored with the USP Alumni Award for her contributions to human relations and social inclusion. Other significant awards include the Fernando Cerviño Lopez Award for Recycling Techniques (2007 & 2005) and the Yes to Racial Equality Award (2021). Her research has also earned recognition at international conferences, including the SETAC Australasia Congress (2013), where her supervised doctoral work won the best student research poster in ecotoxicology. These awards highlight her dedication to scientific excellence, sustainability, and societal impact.

Conclusion

Dr. Denise Alves Fungaro is an accomplished researcher with a strong track record in environmental sustainability, waste valorization, and materials science. Her extensive academic background, professional experience, and pioneering research have earned her national and international recognition. She has significantly contributed to the development of sustainable solutions for industrial waste management, including the synthesis of zeolites, biodegradable materials, and innovative water treatment methods. Her research impact is reflected in her numerous publications, patents, and mentorship of graduate students. Beyond her scientific achievements, she has demonstrated a commitment to promoting sustainability through her leadership in academic and environmental initiatives. While increasing global collaborations and commercializing her patented technologies could further elevate her impact, her existing contributions make her a highly deserving candidate for the Distinguished Scientist Award. Her work exemplifies the fusion of scientific innovation and real-world application, reinforcing her status as a leader in environmental research and sustainable materials development.

Publications Top Notes

  1. Title: Effect of wood sawdust-derived biochar as a substrate component on leachate water quality
    Authors: Daniele de Andrade Villarim Lima; Thamiris Brandino Stellato; Joao Cristiano Ulrich; Danilo Lopes Costa e Silva; Fabiana Abreu de Rezende; Denise Alves Fungaro
    Year: 2025

  2. Title: Thermal evaluation of a Cs-loaded waste vitrification
    Authors: Danilo Lopes Costa e Silva; Mariana Silva Araújo; Denise Alves Fungaro; Sonia Mello-Castanho
    Year: 2025

  3. Title: Byproduct-based zeolite type A as absorbent material for decontamination of simulated radioactive wastewater
    Authors: M.S. Araujo; D.L. Costa-Silva; S.R. Mello Castanho; D.A. Fungaro
    Year: 2025

  4. Title: Assessing immobilization matrices for nuclear effluent treatment: Cs case study
    Authors: Danilo Lopes Costa e Silva; Denise Alves Fungaro; Alexandre Las Casas; Paulo Sergio Cardoso da Silva; Roberto Vicente; Mariana Silva de Araujo; Juliana Carvalho Izidoro; Sonia Mello-Castanho
    Year: 2025

  5. Title: Zeolite Synthesized from Solid Waste for Eco-System Remediation: Selective Adsorption in Wastewater
    Authors: Mariana S. Araujo; Danilo Costa-Silva; Juliana C. Izidoro; Denise A. Fungaro; Sonia Mello Castanho
    Year: 2024

  6. Title: The Flue Gas Desulfurization Gypsum Applications in Production of Eco-Friendly Cementitious Matrices
    Authors: R. H. N. Bibiano; Juliana de Carvalho Izidoro; Denise Alves Fungaro
    Year: 2023

  7. Title: Optimization of Pelleting Parameters for Producing Composite Pellets Using Zeolitic Material From Fly Ash
    Authors: Denise Alves Fungaro; Tharcila Bertolini
    Year: 2023

  8. Title: The influence of separately and combined bentonite and kaolinite as binders for pelletization of NaA zeolite from coal fly ash
    Authors: T. C. R. Bertolini; D. A. Fungaro; A. E. D. Mahmoud
    Year: 2022

  9. Title: Brine sludge waste from a Chlor-alkali industry: characterization and its application for non-structural and structural construction materials
    Authors: Juliana De Carvalho Izidoro; Denise Alves Fungaro; Luciana Cristina Viviani; Rogério Da Costa Silva
    Year: 2021

  10. Title: Aluminium Tertiary Industry Waste and Ashes Samples for Development of Zeolitic Material Synthesis
    Authors: Denise Alves Fungaro; Kátia Cruz Silva; Alaa El Din Mahmoud
    Year: 2021

Nadezhda Markova | Chemistry | Best Researcher Award

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Assoc. Prof. Dr. Nadezhda Markova | Chemistry | Best Researcher Award

Theoretical chemistry at Institute of Organic Chemistry with Centre of Phytochemistry (IOCCP), Bulgarian 

Nadezhda Vasileva Markova is a distinguished Bulgarian scientist specializing in theoretical chemistry. She currently holds the position of Associate Professor at the Institute of Organic Chemistry with Centre of Phytochemistry, part of the Bulgarian Academy of Sciences. With a rich academic and professional background, she is renowned for her expertise in quantum chemical calculations, tautomerism, and the application of theoretical models to elucidate the structure and biological activity of plant-derived compounds. Throughout her career, she has demonstrated a strong commitment to advancing scientific knowledge through extensive research, mentoring, and collaboration with international scientific partners. Markova has co-authored 44 published and 2 accepted scientific articles, receiving over 600 citations. Her impactful research focuses on proton transfer reactions, solvent effects, and the molecular modeling of biologically active compounds. She is also recognized for her collaborative spirit and organizational skills in leading scientific projects. Her notable achievements include winning first place in the competition for high scientific achievements by the Union of Scientists in Bulgaria in 2011. Markova’s contributions continue to shape the field of theoretical and quantum chemistry, making her a leading figure in the Bulgarian scientific community.

Professional Profile

Education

Nadezhda Markova has a strong educational background in chemistry, with a focus on theoretical and organic chemistry. She earned her PhD in Theoretical Chemistry from the Bulgarian Academy of Sciences’ Institute of Organic Chemistry with Centre of Phytochemistry, where she honed her expertise in quantum chemical calculations and molecular modeling. Prior to her doctoral studies, she completed her Master of Science in Organic Chemistry at Shoumen University “Konstantin Preslavsky” between 1995 and 2000. Her master’s studies equipped her with a solid foundation in organic synthesis, analytical methods, and computational chemistry. Markova’s academic training emphasized both experimental and theoretical approaches, enabling her to develop skills in applying quantum chemical models to real-world molecular challenges. Her education has been instrumental in her ability to explore complex chemical processes, particularly in the areas of tautomerism, proton transfer reactions, and the interaction of biological molecules. With a robust academic foundation, she has continued to build on her expertise, contributing significantly to scientific research and publications in the field of theoretical chemistry.

Professional Experience

Nadezhda Markova’s professional career spans nearly two decades, during which she has held various academic and research positions at the Institute of Organic Chemistry with Centre of Phytochemistry, part of the Bulgarian Academy of Sciences. Since 2020, she has served as an Associate Professor, where she leads research projects, supervises doctoral students, and conducts cutting-edge studies in theoretical chemistry. From 2006 to 2020, she worked as an Assistant Professor, actively engaging in research focused on quantum chemical modeling, solvent effects, and the molecular structure of biologically active compounds. During her early career (2005–2006), she held the position of Chemist at the same institute, gaining hands-on experience in experimental and computational chemistry. Throughout her career, Markova has excelled in applying specialized software for quantum chemical calculations, such as GAMESS, GAUSSIAN, ChemCraft, and ChemOffice. Her professional journey highlights her dedication to advancing theoretical chemistry through meticulous research, scientific publications, and collaborative projects.

Research Interest

Nadezhda Markova’s research interests center around theoretical and quantum chemistry, with a particular focus on molecular modeling, proton transfer reactions, and solvent effects. She is deeply engaged in the study of tautomerism and its impact on the biological activity of various chemical compounds. Her work frequently explores the application of quantum chemical calculations in phytochemistry to elucidate the structure and biological action of plant-derived compounds. Additionally, Markova investigates the interactions of biologically significant molecules with nucleic acids, exploring their potential as fluorescent probes and antiviral agents. Her recent studies include the quantum chemical and metabolomic characterization of plant compounds against SARS-CoV-2 and Herpes Simplex Virus DNA polymerase, showcasing her contribution to medicinal chemistry. She is also interested in the effects of external electric fields on molecular tautomeric equilibrium, highlighting her innovative approach to molecular dynamics. Through her research, Markova aims to bridge the gap between computational models and experimental validation, offering valuable insights into molecular behavior and drug development.

Research Skills

Nadezhda Markova possesses an extensive set of research skills, particularly in the field of quantum chemical modeling and computational chemistry. She is highly proficient in utilizing specialized software for quantum chemical calculations, including GAMESS, GAUSSIAN, ChemCraft, and ChemOffice. Her expertise lies in conducting complex simulations to study proton transfer reactions, solvent effects, and tautomeric equilibria. Markova is skilled in applying hybrid statistical mechanics and quantum chemical models to investigate molecular interactions, making her a leader in the field of theoretical chemistry. Additionally, she is adept at using molecular docking and metabolomic profiling techniques to explore the inhibitory potential of natural compounds against viral enzymes. Her research skills extend to scientific writing, data analysis, and result interpretation, as evidenced by her numerous peer-reviewed publications. Furthermore, she excels in collaborating with multidisciplinary teams, organizing research projects, and mentoring doctoral students. Her technical proficiency and analytical capabilities have contributed to significant advancements in the study of molecular structure and biological activity.

Awards and Honors

Nadezhda Markova’s scientific excellence has been recognized through various awards and honors. In 2011, she achieved first place in the competition for high scientific achievements organized by the Union of Scientists in Bulgaria. This prestigious accolade highlighted her impactful contributions to the field of theoretical chemistry. Additionally, Markova’s extensive publication record—comprising 44 published and 2 accepted scientific articles—has received over 600 citations, underscoring the influence and recognition of her research within the scientific community. Her collaborative work with international research teams and participation in high-impact scientific projects further demonstrate her reputation as a leading figure in her field. Through her dedication to scientific innovation and knowledge dissemination, Markova has earned respect and recognition from peers and institutions alike. Her contributions continue to inspire and drive advancements in quantum chemical research and its applications in medicinal and organic chemistry.

Conclusion

Nadezhda Markova is a highly accomplished scientist whose expertise in theoretical chemistry has made a significant impact on the scientific community. Her academic background, extensive research experience, and proficiency in quantum chemical calculations have positioned her as a leading figure in her field. With a strong focus on molecular modeling, proton transfer reactions, and phytochemistry, she continues to push the boundaries of scientific knowledge. Markova’s dedication is reflected in her numerous publications, collaborations, and mentoring of young researchers. Her innovative work has earned her prestigious awards and widespread recognition, highlighting her role as a pioneer in quantum chemistry. As she continues to contribute to the advancement of scientific research, Markova’s legacy of excellence will undoubtedly inspire future generations of scientists and researchers.

Publications Top Notes

  1. Evaluation of chalcone derivatives for their role as antiparasitic and neuroprotectant in experimentally induced cerebral malaria mouse model

    • Authors: Shweta Sinha, Bikash Medhi, B. D. Radotra, Daniela Batovska, Nadezhda Markova, Rakesh
    • Year: 2023

  2. Potential of hydroxybenzoic acids from Graptopetalum paraguayense for inhibiting herpes simplex virus DNA polymerase – metabolome profiling, molecular docking, and quantum-chemical analysis

    • Authors: Nadezhda Todorova, Miroslav Rangelov, Ivayla Dincheva, Ilian Badjakov, Venelin Enchev, Nadezhda Markova
    • Year: 2022

  3. Potential of Hydroxybenzoic Acids From Graptopetalum paraguayense for Inhibiting Herpes Simplex Virus DNA Polymerase – Metabolome Profiling, Molecular Docking and Quantum-chemical Analysis

    • Authors: Nadezhda Hristova Todorova, Miroslav Angelov Rangelov, Ivayla Nedyalkova Dincheva, Ilian Kostadinov Badjakov, Venelin Georgiev Enchev, Nadezhda Vasileva Markova
    • Year: 2021

  4. Binding Expedient of 2‐carbamido‐1,3‐indandione to Nucleic Acids: Potential Fluorescent Probe

    • Authors: Nina Stoyanova, Nadezhda Markova, Ivan Angelov, Irena Philipova, Venelin Enchev
    • Year: 2021

  5. Ultrastructural alterations in Plasmodium falciparum induced by chalcone derivatives

    • Authors: Shweta Sinha, B.D. Radotra, Bikash Medhi, Daniela Batovska, Nadezhda Markova, Rakesh Sehgal
    • Year: 2020

  6. Anti-Herpes Simplex virus and antibacterial activities of Graptopetalum paraguayense E. Walther leaf extract: a pilot study

    • Authors: Margarita Zaharieva, Penka Genova-Kalоu, Ivayla Dincheva, Ilian Badjakov, Svetla Krumova, Venelin Enchev, Hristo Najdenski, Nadezhda Markova
    • Year: 2019

  7. Experimental and theoretical conformational studies of hydrazine derivatives bearing a chromene scaffold

    • Authors: Nadezhda V. Markova, Milen I. Rogojerov, Valentina T. Angelova, Nikolay G. Vassilev
    • Year: 2019

  8. In vitro anti-malarial efficacy of chalcones: Cytotoxicity profile, mechanism of action and their effect on erythrocytes

    • Authors: Shweta Sinha, Daniela I. Batovska, Bikash Medhi, B.D. Radotra, Anil Bhalla, Nadezhda Markova, Rakesh Sehgal
    • Year: 2019

  9. Synthesis, characterization, quantum-chemical calculations, and cytotoxic activity of 1,8-naphthalimide derivatives with non-protein amino acids

    • Authors: Ekaterina D. Naydenova, Milen N. Marinov, Georgi T. Momekov, Ralitsa Y. Prodanova, Nadezhda V. Markova, Yavor T. Voynikov, Nikolay M. Stoyanov
    • Year: 2019

  10. Tautomerism of Inosine in Water: Is It Possible?

  • Authors: Nadezhda Markova, Venelin Enchev
  • Year: 2019
  1. 2-Methylthio-imidazolins: a rare case of different tautomeric forms in solid state and in solution
  • Authors: Venelin Enchev, Nadezhda Markova, Milen Marinov, Nikolay Stoyanov, Milen Rogojerov, Aleksandr Ugrinov, Ireneusz Wawer, Dorota M. Pisklak
  • Year: 2017
  1. Green synthesis, structure and fluorescence spectra of new azacyanine dyes
  • Authors: Venelin Enchev, Nikolay Gadjev, Ivan Angelov, Stefka Minkovska, Atanas Kurutos, Nadezhda Markova, Todor Deligeorgiev
  • Year: 2017
  1. Hybrid MC/QC simulations of water-assisted proton transfer in nucleosides. Guanosine and its analog acyclovir
  • Authors: Nadezhda Markova, Ljupco Pejov, Nina Stoyanova, Venelin Enchev
  • Year: 2017
  1. Ultrasound-assisted green bromination of N-cinnamoyl amino acid amides – Structural characterization and antimicrobial evaluation
  • Authors: Borislava Stoykova, Mariya Chochkova, Gergana Ivanova, Nadezhda Markova, Venelin Enchev, Ivanka Tsvetkova, Hristo Najdenski, Miloslav Štícha, Tatiana Milkova
  • Year: 2017
  1. 2-Carbamido-1,3-indandione – A Fluorescent Molecular Probe and Sunscreen Candidate
  • Authors: Venelin Enchev, Ivan Angelov, Violeta Mantareva, Nadezhda Markova
  • Year: 2015
  1. A hybrid statistical mechanics – Quantum chemical model for proton transfer in 5-azauracil and 6-azauracil in water solution
  • Authors: Nadezhda Markova, Ljupco Pejov, Venelin Enchev
  • Year: 2015
  1. Synthesis of 3′,4′-Dihydro-2H,2′H,5H-spiro [imidazolidine-4,1′-naphthalene]-2,5-dione and its Derivatives
  • Authors: Milen Marinov, Plamena Marinova, Nikolay Stoyanov, Nadezhda Markova, Venelin Enchev
  • Year: 2014
  1. A model system with intramolecular hydrogen bonding: Effect of external electric field on the tautomeric conversion and electronic structures
  • Authors: Venelin Enchev, Vasil Monev, Nadezhda Markova, Milen Rogozherov, Snezhina Angelova, Maria Spassova
  • Year: 2013
  1. Excited state proton transfer in 3,6-bis(4,5-dihydroxyoxazo-2-yl)benzene-1, 2-diol
  • Authors: Venelin Enchev, Nadezhda Markova, Milena Stoyanova, Plamen Petrov, Milen Rogozherov, Natalia Kuchukova, Ivanka Timtcheva, Vasil Monev, Snezhina Angelova, Maria Spassova
  • Year: 2013
  1. Tautomeric equilibria of 5-fluorouracil anionic species in water
  • Authors: Nadezhda Markova, Venelin Enchev, Gergana Ivanova
  • Year: 2010
  1. Physicochemical characterization and in vitro behavior of daunorubicin-loaded poly(butylcyanoacrylate) nanoparticles
  • Authors: Maria Simeonova, Gergana Ivanova, Venelin Enchev, Nadezhda Markova, Milen Kamburov, Chavdar Petkov, Aidan Devery, Rod O’Connor, Declan Brougham
  • Year: 2009
  1. Ab initio and DFT study of the structure of metal ion complexes with N-benzalaniline-15-crown-5
  • Authors: Venelin Enchev, Snezhina Angelova, Nadezhda Markova, Ireneusz Wawer, Evgenia Stanoeva, Mariana Mitewa
  • Year: 2008
  1. Ab initio study of 2,4-substituted azolidines. II. Amino-imino tautomerism of 2-aminothiazolidine-4-one and 4-aminothiazolidine-2-one in water solution
  • Authors: Venelin Enchev, Nadezhda Markova, Snezhina Angelova
  • Year: 2005

Annu Thomas | Chemistry | Best Researcher Award

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Assist. Prof. Dr Annu Thomas | Chemistry | Best Researcher Award

Assistant Professor from Bishop Chulaparambil Memorial College, India

Dr. Annu Thomas is a distinguished academic and researcher in the field of chemistry, currently serving as the Vice-Principal, Associate Professor, and Head of the Department of Chemistry at Bishop Chulaparambil Memorial College, Kerala, India. With a Ph.D. from the Max Planck Institute for Chemical Physics of Solids, Germany, her expertise spans biomimetic growth, nanomaterials, and environmental chemistry. She has extensive research experience, including a post-doctoral fellowship at Stockholm University, Sweden. Dr. Thomas has contributed significantly to scientific literature, with numerous conference presentations and peer-reviewed publications. As a recognized research guide at Mahatma Gandhi University, she is mentoring multiple research scholars. Her work has been supported by prestigious grants, and she has actively participated in science outreach initiatives. She has received several accolades, including university topper rankings, national research fellowships, and international awards for her contributions to material science. An active member of professional organizations, Dr. Thomas plays a key role in promoting scientific advancements. Her dedication to interdisciplinary research, education, and innovation makes her a prominent figure in academia. She continues to explore new frontiers in chemistry, aiming to bridge fundamental science with real-world applications.

Professional Profile

Education

Dr. Annu Thomas has an impressive academic background in chemistry. She earned her Ph.D. from the Max Planck Institute for Chemical Physics of Solids, Germany, under the Faculty of Natural Sciences at Technical University Dresden. Her research focused on biomimetic growth and morphology control of calcium oxalates. She previously obtained an M.Sc. in Physical Chemistry from the School of Chemical Sciences, Mahatma Gandhi University, Kerala, where she secured the first rank in her university. Prior to that, she completed her B.Sc. in Chemistry at Bishop Chulaparambil Memorial College, Kerala, again achieving the top rank in her university. In addition to her formal education, Dr. Thomas has engaged in research training at various prestigious institutions, including Stockholm University, Sweden, and the Jawaharlal Nehru Centre for Advanced Scientific Research, Bangalore. Her academic achievements have been recognized through multiple fellowships and scholarships, including the Junior Research Fellowship (JRF) from the Council of Scientific and Industrial Research (CSIR), India. Her educational journey reflects a strong foundation in chemistry, with an emphasis on interdisciplinary research and practical applications in material science, nanotechnology, and environmental chemistry.

Professional Experience

Dr. Annu Thomas has accumulated vast professional experience as an educator, researcher, and academic leader. She is currently the Vice-Principal and Associate Professor at Bishop Chulaparambil Memorial College, where she also serves as the Head of the Department of Chemistry. She has been actively involved in research and teaching, guiding students in various scientific disciplines. Her postdoctoral research at Stockholm University, Sweden, focused on electron microscopy of bone and dental implants. Additionally, she worked as a Research and Development Assistant at the Jawaharlal Nehru Centre for Advanced Scientific Research, Bangalore, on mesoporous material synthesis. She has also undertaken research at the National Chemical Laboratory, Pune, focusing on polyimide-encapsulated calcium carbonate nanoparticles. Her expertise extends to organizing and participating in national and international conferences, where she has delivered invited talks and presented her research. Beyond her academic roles, she is an editorial board member of scientific journals, contributing to peer review and scientific discourse. Dr. Thomas’ experience in mentoring research scholars, managing research projects, and securing funding showcases her leadership in scientific research and education. Her professional journey highlights a strong commitment to advancing knowledge in chemistry and interdisciplinary sciences.

Research Interest

Dr. Annu Thomas’ research interests span various interdisciplinary fields, with a primary focus on material science, nanotechnology, and biomimetic chemistry. She specializes in the synthesis and characterization of nanomaterials for biomedical and environmental applications. Her work includes biomimetic growth of calcium oxalates, hydrogels for wound healing, and nanoceria hybrid systems for photothermal therapy. She is also interested in electron microscopy studies of dental implants, exploring the osseointegration process. Another key research area is environmental chemistry, where she has studied seasonal variations in water quality parameters, focusing on pollutants affecting ecosystems. Dr. Thomas actively collaborates with other scientists in the field of coordination polymers and conducting materials. Her research integrates fundamental chemistry with real-world applications, including medical treatments, environmental sustainability, and advanced materials for industrial use. With an emphasis on innovation, she aims to develop new methodologies for controlled nanostructure formation and their functional applications. Through her diverse research interests, she continues to contribute to scientific advancements in chemistry and interdisciplinary domains, addressing both fundamental questions and practical challenges in modern science.

Research Skills

Dr. Annu Thomas possesses a strong set of research skills that span multiple disciplines within chemistry and materials science. She has expertise in nanomaterial synthesis, particularly in biomimetic growth and morphology control of calcium oxalates. Her proficiency in electron microscopy, including transmission and scanning electron microscopy, allows her to conduct detailed structural analysis of materials, particularly for biomedical applications. She is skilled in spectroscopic techniques such as FTIR, UV-Vis, and X-ray diffraction for material characterization. Additionally, her experience in synthesizing mesoporous materials and coordination polymers has contributed to advancements in chemistry. Her analytical skills extend to environmental chemistry, where she has conducted water quality assessments using advanced instrumentation. As a research guide, she is adept at mentoring students in experimental design, data interpretation, and scientific writing. She has successfully secured research funding, demonstrating grant-writing proficiency. Furthermore, her active participation in international conferences and editorial board memberships showcases her ability to critically evaluate scientific research. With a strong background in interdisciplinary research, Dr. Thomas continues to expand her expertise, contributing to innovative developments in nanotechnology, environmental science, and biomedical applications.

Awards and Honors

Dr. Annu Thomas has received numerous awards and honors for her academic excellence and research contributions. She was the university topper during both her B.Sc. and M.Sc. in Chemistry at Mahatma Gandhi University, Kerala. She was awarded the Junior Research Fellowship (JRF) by the Council of Scientific and Industrial Research (CSIR), India, and also qualified for the CSIR-UGC National Eligibility Test (NET) for lecturing at postgraduate institutions. She earned international recognition with the Best Oral-Poster Presentation award at Junior Euromat, an event organized by the Federation of European Material Societies in Lausanne, Switzerland. Her Ph.D. from Technical University Dresden was awarded with the prestigious “summa cum laude” distinction, the highest academic honor in Germany. She has also been selected for the Fostering Linkages in Academic Innovation and Research (FLAIR) International Internship from the Government of Kerala. In 2025, she was awarded the Summer Research Fellowship for Teachers by the Indian Academy of Sciences. These accolades highlight her dedication to academic excellence, research innovation, and contributions to the field of chemistry.

Conclusion

Dr. Annu Thomas is a distinguished academician, researcher, and mentor with extensive contributions to chemistry, nanotechnology, and material science. Her strong academic background, international research experience, and dedication to scientific advancement make her a leader in her field. With expertise in nanomaterial synthesis, biomimetic chemistry, and environmental research, she has successfully bridged the gap between fundamental science and practical applications. Her research excellence is reflected in her numerous publications, invited talks, and awards from prestigious organizations. As an educator, she has played a vital role in mentoring young researchers and guiding them toward academic success. Additionally, her efforts in securing research grants and leading interdisciplinary collaborations showcase her ability to drive impactful scientific research. Dr. Thomas’ achievements make her a strong candidate for research awards and recognition in academia. Her future endeavors are likely to contribute significantly to innovative scientific solutions, further cementing her reputation as a leading researcher.

Publications Top Notes

  1. Title: Biomimetic Growth of Calcium Oxalate Hydrates: Shape Development and Structures in Agar Gel Matrices
    Authors: Annu Thomas, Paul Simon, Wilder Carrillo-Cabrera, Elena Sturm
    Year: 2025 (Accepted)

  2. Title: Edible Nanocoating of Dextran/Lipid and Curcumin for Enhanced Shelf Life of Fresh Produce
    Authors: Sana Kabdrakhmanova, Robin Augustine, Tomy Muringayil Joseph, Aiswarya Sathian, Annu Thomas, Nandakumar Kalarikkal, Sabu Thomas, Joshy K.S, Anwarul Hasan
    Year: 2025

  3. Title: Regional Variation of Water Quality Parameters of Meenachil River
    Authors: Annu Thomas, Magi John
    Year: 2024

  4. Title: In Silico Studies of Remdesivir Triphosphate on Hemorrhagic Fevers and Molecular Dynamic Simulations of Hemorrhagic Fever Viruses
    Authors: Aishwarya Joy, Aby Jimson, Annu Thomas
    Year: 2023

  5. Title: In Silico Study of Potential Activity of Tenofovir Derivatives Against Hepatitis B
    Authors: Keerthana Pradeep K.V, Aby Jimson, Annu Thomas
    Year: 2023

  6. Title: Synthesis, Characterization, and Antibacterial Study of Zinc Oxide Nanoparticles
    Authors: Aisha Jaino, Gayathri B. Raj, Sandra A., Aby Jimson, Annu Thomas
    Year: 2023

  7. Title: Morphological and Crystallographic Aspects of Biogenic Calcium Oxalates and the Use of Biopolymers to Mimic Them
    Authors: Annu Thomas
    Year: 2023

  8. Title: Direct Observation of Bone Coherence with Dental Implants
    Authors: Annu Thomas, Johanna Andersson, Daniel Grüner, Fredrik Osla, Kjell Jansson, Jenny Fäldt, Zhijian Shen
    Year: 2012

  9. Title: Mimicking the Growth of a Pathologic Biomineral: Shape Development and Structures of Calcium Oxalate Dihydrate in the Presence of Polyacrylic Acid
    Authors: Annu Thomas, Elena Rosseeva, Oliver Hochrein, Wilder Carrillo-Cabrera, Paul Simon, Patrick Duchstein, Dirk Zahn, Rüdiger Kniep
    Year: 2012

  10. Title: Biomimetics – Morphology Control of Calcium Oxalates
    Authors: Annu Thomas, Wilder Carrillo-Cabrera, Oliver Hochrein, Paul Simon, Rüdiger Kniep
    Year: 2009

  11. Title: Revealing the Crystal Structure of Anhydrous Calcium Oxalate, Ca[C2O4], by a Combination of Atomistic Simulation and Rietveld Refinement
    Authors: Oliver Hochrein, Annu Thomas, Rüdiger Kniep
    Year: 2008

  12. Title: Synthesis of Mesoporous Zn–Al Spinel Oxide Nanorods with Membrane-Like Morphology
    Authors: Annu Thomas, Balakrishna Pillai Premlal, Muthusamy Eswaramoorthy
    Year: 2006

Jiakang Zhang | Chemistry | Best Researcher Award

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Dr. Jiakang Zhang | Chemistry | Best Researcher Award

Doctor at Qingdao university of science and technology, China

Dr. Jiakang Zhang is a dedicated researcher specializing in high-efficiency perovskite solar cells, focusing on lead leakage prevention, surface passivation, and advanced hole transport materials. As the first and corresponding author, he has published multiple high-impact research papers in prestigious journals such as Angewandte Chemie International Edition, Advanced Science, Advanced Materials, and Nano Energy. His work emphasizes innovative stability strategies and coordination chemistry to enhance solar cell performance. Through collaborative research, Dr. Zhang has contributed significantly to advancements in sustainable energy technologies. His expertise, coupled with a strong publication record, demonstrates his influence in the field. While further details on citation metrics, industry collaborations, and patents could enhance his research impact, his contributions already establish him as a leading figure in perovskite solar cell research. Dr. Zhang’s commitment to innovation and scientific excellence makes him a strong contender for the Best Researcher Award.

Professional Profile

Education

Dr. Jiakang Zhang holds a strong academic background in materials science and renewable energy, specializing in the development of high-efficiency perovskite solar cells. He earned his doctoral degree from Qingdao University of Science and Technology, where he focused on performance enhancement and stability strategies for perovskite solar technology. His research has been deeply rooted in coordination chemistry, surface passivation techniques, and the design of novel hole transport materials. Throughout his academic journey, Dr. Zhang has actively contributed to cutting-edge advancements in solar energy, publishing extensively in top-tier scientific journals. His education has provided him with a solid foundation in photovoltaic materials, nanotechnology, and sustainable energy solutions. Through rigorous training, collaborative research, and interdisciplinary expertise, he has developed innovative approaches to improving solar cell efficiency and stability. His academic achievements, combined with a commitment to pioneering research, position him as a leading expert in his field.

Professional Experience

Dr. Jiakang Zhang has extensive professional experience in the field of high-efficiency perovskite solar cells, with a strong focus on performance optimization, stability strategies, and material innovation. As a researcher at Qingdao University of Science and Technology, he has led multiple studies on lead leakage prevention, coordination chemistry for surface passivation, and the development of un-doped hole transport materials. His expertise is reflected in his role as the first and corresponding author of several high-impact publications in renowned journals such as Angewandte Chemie International Edition, Advanced Science, Advanced Materials, and Nano Energy. Through collaborative projects, he has contributed to groundbreaking advancements in perovskite solar technology, working with interdisciplinary teams to address key challenges in the field. His professional experience also includes mentoring young researchers, engaging in international collaborations, and pushing the boundaries of photovoltaic research. Dr. Zhang’s work continues to shape the future of renewable energy solutions.

Research Interests

Dr. Jiakang Zhang’s research interests lie in the advancement of high-efficiency perovskite solar cells, with a particular focus on stability enhancement and material innovation. His work explores lead leakage prevention and control, aiming to improve the environmental safety of perovskite-based photovoltaics. He is also deeply involved in coordination chemistry for surface and interface passivation, addressing defects that affect device performance and longevity. Additionally, Dr. Zhang is committed to the design and application of high-performance un-doped hole transport materials, which play a crucial role in improving charge transport efficiency and overall solar cell stability. His research integrates fundamental chemistry with applied material science, driving innovations in next-generation solar energy technologies. Through interdisciplinary collaborations and a strong publication record in prestigious journals, Dr. Zhang continues to make significant contributions toward the commercialization and large-scale application of perovskite solar cells, shaping the future of sustainable and renewable energy solutions.

Awards and Honors

Dr. Jiakang Zhang has been recognized for his outstanding contributions to the field of high-efficiency perovskite solar cells through various awards and honors. His pioneering research on stability enhancement, lead leakage prevention, and advanced material design has earned him recognition in the scientific community. As the first and corresponding author of multiple high-impact publications in prestigious journals such as Angewandte Chemie International Edition, Advanced Science, Advanced Materials, and Nano Energy, Dr. Zhang has gained significant academic acclaim. His work has been cited widely, reflecting its impact on the field of photovoltaic technology. In addition to his research achievements, he has been acknowledged for his collaborative efforts in advancing solar energy solutions. While specific awards and honors may not be explicitly listed, his extensive contributions and influence in the domain of renewable energy research position him as a distinguished scientist and a strong candidate for prestigious research awards.

Research Skills

Dr. Jiakang Zhang possesses a diverse and advanced set of research skills in the field of high-efficiency perovskite solar cells. His expertise includes material synthesis and characterization, with a strong focus on developing novel strategies for lead leakage prevention and stability enhancement. He has extensive experience in coordination chemistry, which he applies to surface and interface passivation to improve device performance and longevity. Dr. Zhang is proficient in the design and optimization of high-performance un-doped hole transport materials, contributing to more efficient charge transport in photovoltaic systems. His research skills also extend to experimental design, data analysis, and the use of advanced spectroscopic and microscopic techniques for material evaluation. Furthermore, he has a strong background in scientific writing and publishing, having authored multiple high-impact papers in leading journals. His ability to conduct interdisciplinary research and collaborate on innovative solar energy solutions makes him a valuable contributor to the field.

Conclusion

Dr. Jiakang Zhang is a highly qualified candidate for the Best Researcher Award due to his extensive research contributions, high-impact publications, and expertise in perovskite solar cells. Strengthening the application with citation data, industry collaborations, patents, and leadership roles would further solidify his eligibility and enhance his nomination.

Publications Top Notes

  • Title: Halogen-Bonded Hole-Transport Material Enhances Open-Circuit Voltage of Inverted Perovskite Solar Cells
  • Authors: Z. Chen, Zhaoyang; J. Zhang, Jiakang; Z. Chen, Zilong; H. Zhang, Haichang; M. Liu, Maning, et al.
  • Journal: Advanced Science
  • Year: 2024
  • Type: Open-access article
  • Key Contribution: The study focuses on utilizing halogen-bonded hole-transport materials to enhance the open-circuit voltage of inverted perovskite solar cells.

Ajmal Khan | Chemistry | Best Researcher Award

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Prof. Ajmal Khan | Chemistry | Best Researcher Award

Associate Professor at Xi’an Jiaotong University, China

Dr. Ajmal Khan is an accomplished researcher specializing in organic synthesis and catalysis. Currently serving as an Associate Professor at Xi’an Jiaotong University, he has made significant contributions to asymmetric catalysis, green chemistry, and pharmaceutical synthesis. With a strong background in transition-metal-catalyzed reactions, he has authored numerous high-impact journal publications in Organic Letters, Journal of Organic Chemistry, Chemical Science, and Angewandte Chemie International Edition. His research focuses on the development of novel catalytic methodologies for the regio- and enantioselective synthesis of bioactive molecules. Additionally, he has patented innovative approaches to chiral amine synthesis. Despite his extensive publication record, Dr. Khan has yet to secure major research grants or receive widespread academic awards. However, his expertise, research productivity, and dedication to advancing synthetic chemistry make him a strong candidate for recognition in the field.

Professional Profile

Education

Dr. Ajmal Khan has a strong academic background in chemistry. He earned his Ph.D. in Chemistry from Shanghai Jiao Tong University in 2015, where he specialized in asymmetric catalysis and transition-metal-mediated reactions. Prior to that, he completed his Master’s degree (2007) and Bachelor’s degree (2005) in Chemistry from the University of Peshawar. His educational journey has equipped him with a deep understanding of synthetic organic chemistry, particularly in stereoselective transformations and catalytic reaction mechanisms. His doctoral research laid the foundation for his future work in palladium- and molybdenum-catalyzed asymmetric allylic substitution reactions. With extensive training in methodology development, reaction optimization, and mechanistic studies, Dr. Khan’s academic qualifications reflect his strong expertise in the field of modern synthetic chemistry.

Professional Experience

Dr. Ajmal Khan has amassed significant research experience across multiple institutions. He began his professional journey as a postdoctoral researcher at Shanghai Jiao Tong University (2015–2017), where he worked on transition-metal-catalyzed asymmetric transformations. In 2018, he joined Sun Yat-sen University as a Research Fellow in the School of Pharmacy, focusing on the synthesis of bioactive molecules. Later in 2018, he was appointed as an Associate Professor at Xi’an Jiaotong University, where he continues to lead research in synthetic organic chemistry. Throughout his career, he has collaborated with experts in catalysis and medicinal chemistry, contributing to innovative developments in enantioselective synthesis, C–H activation, and sustainable catalysis. His professional trajectory highlights a consistent focus on advancing chemical methodologies with pharmaceutical and industrial applications.

Research Interests

Dr. Ajmal Khan’s research is centered on transition-metal catalysis, asymmetric synthesis, and green chemistry. His primary focus lies in developing molybdenum- and palladium-catalyzed enantioselective reactions, with applications in drug discovery and material science. He is particularly interested in the stereoselective synthesis of bioactive molecules, including chiral amines, amino acids, and heterocyclic compounds. His work also extends to C–H activation, decarboxylative cycloaddition, and borrowing hydrogen methodologies, which are crucial for advancing sustainable organic synthesis. Additionally, he is dedicated to exploring recyclable catalytic systems to minimize environmental impact. His interdisciplinary approach integrates organic synthesis, organometallic chemistry, and pharmaceutical applications, aiming to create novel, more efficient synthetic pathways for medicinally relevant compounds.

Research Skills

Dr. Ajmal Khan possesses a diverse set of research skills that make him an expert in synthetic organic chemistry and catalysis. He has extensive experience in transition-metal catalysis, particularly in palladium-, molybdenum-, and tungsten-mediated transformations. His technical expertise includes reaction optimization, mechanistic studies, chiral synthesis, and asymmetric transformations. He is proficient in handling air-sensitive reactions, advanced spectroscopic analysis (NMR, IR, MS), and chromatographic purification techniques (HPLC, GC, and TLC). Additionally, he is skilled in computational chemistry tools for reaction modeling and mechanistic investigations. His research methodology emphasizes green and sustainable chemistry, including the development of solvent-free catalytic systems and recyclable nanocatalysts. His ability to design novel catalytic reactions and optimize regio- and enantioselective processes makes him a valuable contributor to the field of modern organic synthesis.

Awards and Honors

Dr. Ajmal Khan has received recognition for his contributions to synthetic organic chemistry, particularly in the development of enantioselective catalytic methodologies. His research excellence is reflected in numerous high-impact publications, many of which list him as the sole corresponding author, highlighting his leadership and expertise. He has also been granted a Chinese patent for the asymmetric synthesis of chiral amines, demonstrating the practical application of his research. Despite these accomplishments, there is no record of major national or international research awards in his name. While his work is highly regarded in the academic community, securing prestigious grants and awards would further elevate his recognition as a leading researcher in his field.

Conclusion

Dr. Ajmal Khan is a dedicated researcher with a strong track record in asymmetric catalysis, green chemistry, and pharmaceutical synthesis. His high-quality publications, innovative methodologies, and expertise in transition-metal-catalyzed reactions establish him as a valuable contributor to the field of synthetic organic chemistry. While his research impact is evident, securing external funding, expanding collaborations, and receiving formal academic recognition would further strengthen his standing as a top researcher. His commitment to advancing sustainable and efficient catalytic transformations positions him as a promising candidate for awards and honors in the field of organic chemistry.

Publications Top Notes

  1. Title: Synthesis, in-vitro evaluation and in-silico analysis of new anticholinesterase inhibitors based on sulfinylbis(acylhydrazones) scaffolds
    Authors: M. Ibrahim Muhammad, M.Z. Ali Mumtaz Z., S.A.S.A. Halim Sobia Ahsan Syed Abd, A.L. Khan Ajmal L., A.S. Al-Harrasi Ahmed Sulaiman
    Year: 2025

  2. Title: Exploration of Polyhydroquinoline (PHQ) derivatives for antibacterial effects: Synthesis, biological screening, and in-silico evaluation
    Authors: S. Hussain Sajid, A. Latif Abdul, M.Z. Ali Mumtaz Z., A.S. Al-Harrasi Ahmed Sulaiman, F.A. Özdemir Fethi Ahmet
    Year: 2025

  3. Title: Design, synthesis, in-vitro and in-silico studies of 6-bromochromone based thiosemicarbazones as α-glucosidase inhibitors
    Authors: K.A. Dahlous Kholood Ahmed, M.M. Ajmal Muhammad Maroof, S.A. Ullah Saeed Aqib, A.S. Al-Harrasi Ahmed Sulaiman, Z. Shafiq Zahid
    Year: 2025

  4. Title: Exploring 1,3,4-Oxadiazole derivatives of 3,4-Dihydroxyphenylacetic acid as potent α-glucosidase inhibitors: Synthesis, structure-activity relationship, molecular docking, and DFT studies
    Authors: H. Khan Hammad, F. Jan Faheem, Aqsa, M. Khan Momin, S. Ali Shaukat
    Year: 2025

  5. Title: Ketorolac-based ester derivatives as promising hits for malignant glioma: Synthesis, brain cancer activity, molecular docking, dynamic simulation and DFT investigation
    Authors: Samiullah, A. Alam Aftab, Zainab, A.S. Al-Harrasi Ahmed Sulaiman, M.M. Ahmad M.M.
    Year: 2025

  6. Title: Global, regional, and national prevalence of adult overweight and obesity, 1990–2021, with forecasts to 2050: a forecasting study for the Global Burden of Disease Study 2021
    Authors: M. Ng Marie, E. Gakidou Emmanuela, J. Lo Justin, M. Al-Wardat Mohammad, Y.M. Al-Worafi Yaser Mohammed
    Year: 2025
    Citations: 2

  7. Title: Global, regional, and national prevalence of child and adolescent overweight and obesity, 1990–2021, with forecasts to 2050: a forecasting study for the Global Burden of Disease Study 2021
    Authors: J.A. Kerr Jessica A., G.C. Patton George C., K.I. Cini Karly I., F.J. Alvi Farrukh Jawad, N.R. Alvis-Guzman Nelson Rafael
    Year: 2025
    Citations: 2

  8. Title: Changing life expectancy in European countries 1990–2021: a subanalysis of causes and risk factors from the Global Burden of Disease Study 2021
    Authors: N. Steel N., C.M.M. Bauer-Staeb Clarissa Maria Mercedes, J.A. Ford John A., N.B. Bhala Neeraj B., S.M. Bhaskar Sonu M.M.
    Year: 2025

  9. Title: Global, regional, and national burden of suicide, 1990–2021: a systematic analysis for the Global Burden of Disease Study 2021
    Authors: N. Davis Weaver Nicole, G.J. Bertolacci Gregory J., E. Rosenblad Emily, O.P. Doshi Ojas Prakashbhai, H.L. Dsouza Haneil Larson
    Year: 2025

  10. Title: Design, synthesis, in-vitro and in-silico studies of novel N-heterocycle based hydrazones as α-glucosidase inhibitors
    Authors: R. Farooqi Rehmatullah, S.A. Ullah Saeed Aqib, A.L. Khan Ajmal L., Z. Shafiq Zahid, S. Schenone Silvia
    Year: 2025

Noor Hidayah Pungot | Chemistry | Best Researcher Award

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Dr. Noor Hidayah Pungot | Chemistry | Best Researcher Award

Senior lecturer & Researcher at  University Technology MARA (UiTM), Malaysia

Dr. Noor Hidayah Pungot, born on July 7, 1984, in Johor, Malaysia, is a Senior Lecturer (DM54) at Universiti Teknologi MARA (UiTM). With over 16 years of academic and research experience, she specializes in Organic Chemistry, focusing on synthetic chemical exploration, medicinal chemistry, and natural product synthesis. She also serves as a Research Fellow at the Institute of Science (IOS), UiTM Puncak Alam, contributing to the Chemical Synthesis Group. Dr. Noor Hidayah is actively engaged in research on bioactive compounds, total synthesis of natural products, and analytical chemistry, utilizing advanced instrumentation such as NMR, FTIR, and GCMS. Her contributions to the academic field extend to her role as a course instructor for various chemistry subjects at UiTM. She has been recognized for her expertise and leadership through multiple committee roles, including Project Manager for the Satreps (MOHE – JICA) project and Coordinator of Risk Management at IOS. With a decade of experience in organic synthesis, Dr. Noor Hidayah continues to contribute significantly to chemical research, education, and institutional development.

Professional Profile

Education

Dr. Noor Hidayah Pungot earned her Ph.D. in Organic Chemistry from Universiti Teknologi MARA (UiTM) in 2019, focusing on the total synthesis of pachydermin and bioactive metabolites derived from Chamonixia pachydermis. Prior to her doctoral studies, she completed her Master of Science (MSc) in Analytical Chemistry and Instrumentation at the University of Malaya in 2009, researching chemical constituents from selected Malaysian Rubiaceae (Mitragyna speciosa). She obtained her Bachelor of Science (BSc) in Applied Chemistry from UiTM in 2006, where she investigated alkaloids from Uncaria Callophylla. Her strong academic foundation was built at Johore Matriculation College (2002-2003) and Sekolah Menengah Sultan Ismail, Johor Bahru (SPM, 2001). Dr. Noor Hidayah’s academic journey has been characterized by a strong focus on organic synthesis, analytical methodologies, and medicinal chemistry. Through her studies, she has developed expertise in synthesizing bioactive compounds, employing cutting-edge chemical instrumentation, and advancing knowledge in medicinal chemistry. Her educational background has equipped her with the skills necessary for conducting high-level research in organic and medicinal chemistry, solidifying her position as a leading academician in her field.

Professional Experience

Dr. Noor Hidayah Pungot has accumulated extensive professional experience over the years, progressing through various academic and research positions. She began her career as an Executive Officer at Southern Lion Sdn Bhd in Johor Bahru (2007-2008), gaining industry experience before transitioning into academia. In 2009, she joined UiTM as a Lecturer at the Faculty of Applied Science, Kuala Pilah Campus, a position she held until 2019. In 2019, she was promoted to Senior Lecturer (DM52) at the School of Chemistry and Environment, UiTM Shah Alam, where she has been actively engaged in teaching, research, and academic administration. In addition to her lecturing duties, she has held several leadership roles, including Project Manager for the Satreps (MOHE – JICA) project (2024-2026), Coordinator of Risk Management (IOS) (2023-2026), and Committee Member for Academic & Postgraduate Unit at IOS (2023-2025). Her teaching portfolio includes courses such as Organic Chemistry I & II, General Chemistry, and Advanced Organic Chemistry Laboratory. Through her diverse professional experiences, Dr. Noor Hidayah has made significant contributions to both academia and research, demonstrating her dedication to advancing chemical sciences and higher education.

Research Interests

Dr. Noor Hidayah Pungot’s research interests lie in the field of organic chemistry, particularly in synthetic and medicinal chemistry. Her primary focus is on the synthesis of N-heterocycles with pyrrolidine ring systems, specifically developing derivatives and intermediates of pachydermin using different chemical reactions. She is also engaged in the total synthesis of natural product compounds, including B-carboline, Daibucarboline, Hyrtiosulawesine, and Pityriacitrin. Additionally, her research explores synthetic methodologies and chemical exploration, with a special interest in using catalysts such as MgAl Hydrotalcite. Dr. Noor Hidayah is also deeply involved in studying the biological activities of synthesized compounds, including their antibacterial, anti-quorum sensing, anti-inflammatory, antimalarial, and anticancer properties. Her work extends to analytical chemistry and instrumentation, utilizing advanced techniques such as Nuclear Magnetic Resonance (NMR), Fourier Transform Infrared Spectroscopy (FTIR), and Gas Chromatography-Mass Spectrometry (GCMS). Through her interdisciplinary research, she aims to contribute to drug discovery, medicinal chemistry, and the development of novel therapeutic agents. Her commitment to research excellence is reflected in her collaborations, published works, and participation in various scientific projects and initiatives.

Research Skills

Dr. Noor Hidayah Pungot possesses a strong set of research skills, particularly in organic synthesis, medicinal chemistry, and analytical chemistry. With over a decade of experience in organic synthesis, she has expertise in synthesizing bioactive compounds, including N-heterocycles and total synthesis of natural products. Her research methodologies encompass advanced synthetic techniques, catalyst development, and chemical reaction optimization. In the field of medicinal chemistry, she has conducted extensive studies on the biological activities of synthesized compounds, including their antibacterial, anticancer, and antimalarial properties. Dr. Noor Hidayah is also proficient in analytical chemistry and instrumental analysis, utilizing state-of-the-art equipment such as NMR, FTIR, and GCMS for chemical characterization. Additionally, she has experience in project management and academic leadership, having served as Project Manager for the Satreps (MOHE – JICA) project and holding key administrative roles at UiTM. Her skills extend to teaching and mentoring students, guiding them in research projects, and enhancing their practical laboratory skills. Through her expertise in synthetic methodologies, bioactive compound analysis, and chemical instrumentation, Dr. Noor Hidayah continues to make significant contributions to the advancement of chemical sciences and pharmaceutical research.

Awards and Honors

Dr. Noor Hidayah Pungot has been recognized for her excellence in research, academia, and institutional service through various awards and honors. She has played a key role in several high-impact research projects, including her position as Project Manager for the prestigious Satreps (MOHE – JICA) project (2024-2026). Additionally, she has been entrusted with leadership roles such as Coordinator of Risk Management (IOS) (2023-2026) and Secretary of Risk Management (IOS) (2023-2025), reflecting her commitment to institutional development. She has also contributed to academic and research committees, including the Academic & Postgraduate Unit at IOS (2023-2025) and the Content Creator Website Committee at IOS (2023-2025). Her dedication to education has been recognized through her role as a Resource Person for Industrial Training (FSG678) at the School of Chemistry and Environment, UiTM Shah Alam. With a track record of academic excellence, research contributions, and administrative leadership, Dr. Noor Hidayah continues to be a highly esteemed academician in the field of organic chemistry.

Conclusion

Dr. Noor Hidayah Pungot is a distinguished academician and researcher in the field of organic and medicinal chemistry. With a strong foundation in synthetic methodologies, total synthesis of natural products, and bioactive compound analysis, she has made significant contributions to the advancement of chemical sciences. Her extensive experience in academia, research, and institutional leadership highlights her dedication to education and scientific exploration. As a Senior Lecturer and Research Fellow at UiTM, she continues to mentor students, lead high-impact research projects, and contribute to the development of innovative chemical methodologies. Through her expertise in organic synthesis, medicinal chemistry, and analytical techniques, Dr. Noor Hidayah plays a vital role in shaping the future of chemical research and education. Her recognition through various awards and leadership positions further underscores her commitment to academic excellence. With her continued contributions to research and education, she remains a key figure in the field of organic chemistry, inspiring future generations of scientists and researchers.

Publication Top Notes

  • Synthesis and diverse biological activities of substituted indole β-carbolines: a review

    • Authors: Siti Zafirah Zulkifli, Noor Hidayah Pungot, Aimi Suhaily Saaidin, Nor Akmalazura Jani, Mohd Fazli Mohammat
    • Year: 2024

  • Molecular Docking and ADME Profiles of Hyrtiosulawesine Derivatives Targeting pfLDH: Exploring Potential as Antimalarial Agents

    • Authors: Siti Zafirah Zulkifli, Ahmad Amzar Abdul Aziz, Aimi Suhaily Saaidin, Nurasyikin Hamzah, Noor Hidayah Pungot
    • Year: 2024

  • Review on Synthesis of (S)-5-Benzylpyrrolidine-2,4-dione Derivatives with Substitution at C-3 Position by Employing Functional Groups Interconversion

    • Authors: Noor Hidayah Pungot, Munirah Zulkifli, Noraishah Abdullah, Nur Ain Nabilah Ash’ari, Zurina Shaameri
    • Year: 2022

  • Solid Phase Extraction Method for the Determination of Atrazine and Cyanazine in Water Samples

    • Author: Noor Hidayah Pungot
    • Year: 2021

  • Synthesis of 1-acetyl-3,5-diphenyl-1H-pyrazole from Chalcone

    • Author: Noor Hidayah Pungot
    • Year: 2021

  • Phytochemical screening, total phenolic content and antioxidant activity of leaf extract of Muntingia calabura

    • Authors: Noor Hidayah Pungot, Atikah Nazaharuddin, N.S.
    • Year: 2020

  • Synthesis of 3-methyl-5-nitrobenzyl β, β-diketoester as a derivative of pachydermin, a tetramic acid from Chamonixia pachydermis

    • Authors: Noor Hidayah Pungot, Zurina Shaameri, A.S. Hamzah, Mohd Fazli Mohammat, N. Hussain
    • Year: 2017

 

 

Yong Fan | Analytical Chemistry | Best Researcher Award

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Prof. Dr. Yong Fan | Analytical Chemistry | Best Researcher Award

Fudan University, China

Dr. Yong Fan is an accomplished professor in the Department of Chemistry at Fudan University, Shanghai, China. He has built a remarkable career in the fields of chemistry, materials science, and optical imaging, focusing on groundbreaking research that bridges multiple disciplines. With a robust educational background from leading institutions like Tsinghua University and Tohoku University, Dr. Fan has progressed rapidly in academia, advancing from postdoctoral roles to his current position as a professor. His dedication is evident through his involvement in numerous prestigious research projects funded by the National Natural Science Foundation of China and his leadership in international collaboration initiatives. Dr. Fan has received significant awards, such as the Rare Earth Science and Technology Award and the Shanghai Science and Technology Progress Award, underscoring his impact on the field. Additionally, he holds key editorial positions in various scientific journals, contributing to the scholarly community through editorial oversight and research dissemination.

Professional Profile

Education

Dr. Yong Fan’s education spans prestigious institutions, laying a solid foundation for his interdisciplinary expertise in materials science, chemistry, and physics. He earned his Ph.D. from Tsinghua University’s Institute of Optical Imaging and Sensing, Department of Physics, where he was directly admitted into the doctoral program due to his academic excellence. During his doctoral studies from 2009 to 2015, he conducted research in the field of optical imaging and sensing, integrating his work with advanced materials science. Additionally, Dr. Fan pursued a joint postgraduate program in Analytical Chemistry at Tohoku University, Japan, from 2010 to 2012. This international training enriched his knowledge and provided him with a broader scientific perspective, especially in chemical analysis techniques. His academic journey began with a Bachelor’s degree in Materials Physics from Xi’an Jiaotong University, China, completed in 2009, where he developed foundational skills in materials science. This unique blend of international exposure and top-tier education has equipped Dr. Fan with the interdisciplinary skills essential for his contributions to chemistry and materials science.

Professional Experience

Dr. Yong Fan has rapidly progressed in his professional career, demonstrating significant contributions at each stage. After completing his Ph.D., he began as a Lab Assistant at Tsinghua University’s Institute of Optical Imaging and Sensing in 2015, where he gained hands-on experience in advanced imaging technologies. Shortly after, he moved to Fudan University, where he served as a postdoctoral researcher in the Department of Chemistry from 2015 to 2018. During this period, he contributed to multiple high-impact research projects and developed his expertise in materials chemistry. In 2019, Dr. Fan was promoted to Associate Professor, reflecting his achievements in research and teaching. His reputation continued to grow, culminating in his promotion to full Professor in December 2023. Dr. Fan’s career at Fudan University has been marked by his contributions to several prestigious research projects and his leadership in fostering interdisciplinary collaboration, demonstrating his ability to produce impactful research and mentor young scientists.

Research Interests

Dr. Yong Fan’s research interests are centered around interdisciplinary areas that connect chemistry, materials science, and optical imaging. His primary focus is on the development of innovative imaging and sensing technologies, where he explores advanced materials to enhance optical imaging applications. His work includes exploring new methods in analytical chemistry to improve detection sensitivity and accuracy, an area crucial for both medical diagnostics and environmental monitoring. Additionally, Dr. Fan is deeply interested in rare earth materials and their applications in luminescence, which has implications for both scientific research and industrial applications. His research also involves collaborating on international projects that address fundamental challenges in energy-efficient materials, which hold potential in sustainable energy solutions. Through his work, Dr. Fan seeks to push the boundaries of materials chemistry, aiming to develop technologies that can be applied in diverse fields, including biotechnology, pharmaceuticals, and environmental science.

Research Skills

Dr. Yong Fan possesses a comprehensive set of research skills that align with his extensive academic and professional experience in chemistry, materials science, and optical imaging. His technical expertise includes advanced analytical methods such as spectrophotometry, imaging techniques, and rare earth material analysis. Dr. Fan is skilled in project management, having successfully led multiple funded research projects from prominent institutions such as the National Natural Science Foundation of China. His international training experience has endowed him with cross-cultural collaboration skills, enabling him to effectively contribute to and manage international projects. Additionally, Dr. Fan’s role as an editor for several journals reflects his expertise in scientific writing and peer review processes, which are crucial for maintaining research quality. His hands-on experience with both theoretical and practical aspects of materials chemistry, coupled with his knowledge of imaging technology, positions him as a versatile researcher capable of addressing complex scientific challenges.

Awards and Honors

Dr. Yong Fan’s impressive achievements in the field of chemistry and materials science are reflected in the numerous awards and honors he has received. In 2023, he was awarded the 1st Prize of the Rare Earth Science and Technology Award, recognizing his innovative contributions to this specialized field. In 2022, he received the 1st Prize for the Shanghai Science and Technology Progress Award, further establishing his reputation as a leading researcher in Shanghai. Previously, Dr. Fan was named a “Shanghai Rising-Star” in 2020, acknowledging his potential and the impact of his work on the scientific community. His earlier recognition includes the Distinguished Postdoc Award from Fudan University in 2018, which highlighted his exceptional contributions during his postdoctoral tenure. Additionally, he was awarded the First Prize of Jingzhi Research at Tsinghua University in 2014 and the Second Prize Scholarship from Tsinghua’s Graduate School in Shenzhen in 2012. These honors underscore Dr. Fan’s consistent track record of excellence and innovation throughout his academic and research career.

Conclusion

Dr. Yong Fan’s extensive qualifications, funded projects, and prestigious awards position him as a compelling candidate for the Best Researcher Award. His strong research background, along with his editorial roles, speaks to both his technical expertise and dedication to advancing science. Enhancing collaborative efforts and highlighting his publications could strengthen his profile further. However, even with minor areas for improvement, Dr. Fan’s achievements and recognition make him a worthy contender for the award.

Publication Top Notes

  1. “Lifetime-engineered NIR-II nanoparticles unlock multiplexed in vivo imaging”
    Authors: Y. Fan, P. Wang, Y. Lu, R. Wang, L. Zhou, X. Zheng, X. Li, J.A. Piper, F. Zhang
    Journal: Nature NanotechnologyVolume: 13 (10), Pages: 941-946
    Year: 2018
    Citations: 669
  2. “X-ray-activated persistent luminescence nanomaterials for NIR-II imaging”
    Authors: P. Pei, Y. Chen, C. Sun, Y. Fan, Y. Yang, X. Liu, L. Lu, M. Zhao, H. Zhang, …
    Journal: Nature NanotechnologyVolume: 16 (9), Pages: 1011-1018
    Year: 2021
    Citations: 449
  3. “Anti-quenching NIR-II molecular fluorophores for in vivo high-contrast imaging and pH sensing”
    Authors: S. Wang, Y. Fan, D. Li, C. Sun, Z. Lei, L. Lu, T. Wang, F. Zhang
    Journal: Nature CommunicationsVolume: 10 (1), Article ID: 1058
    Year: 2019
    Citations: 434
  4. “NIR-II nanoprobes in-vivo assembly to improve image-guided surgery for metastatic ovarian cancer”
    Authors: P. Wang, Y. Fan, L. Lu, L. Liu, L. Fan, M. Zhao, Y. Xie, C. Xu, F. Zhang
    Journal: Nature CommunicationsVolume: 9 (1), Article ID: 2898
    Year: 2018
    Citations: 411
  5. “Er3+ Sensitized 1530 nm to 1180 nm Second Near‐Infrared Window Upconversion Nanocrystals for In Vivo Biosensing”
    Authors: L. Liu, S. Wang, B. Zhao, P. Pei, Y. Fan, X. Li, F. Zhang
    Journal: Angewandte ChemieVolume: 130 (25), Pages: 7640-7644
    Year: 2018
    Citations: 344
  6. “Tm3+‐Sensitized NIR‐II Fluorescent Nanocrystals for In Vivo Information Storage and Decoding”
    Authors: H. Zhang, Y. Fan, P. Pei, C. Sun, L. Lu, F. Zhang
    Journal: Angewandte Chemie International EditionVolume: 58 (30), Pages: 10153-10157
    Year: 2019
    Citations: 234
  7. “A New Generation of NIR‐II Probes: Lanthanide‐Based Nanocrystals for Bioimaging and Biosensing”
    Authors: Y. Fan, F. Zhang
    Journal: Advanced Optical MaterialsVolume: 7 (7), Article ID: 1801417
    Year: 2019
    Citations: 224
  8. “In Vivo High-resolution Ratiometric Fluorescence Imaging of Inflammation Using NIR-II Nanoprobes with 1550 nm Emission”
    Authors: S. Wang, L. Liu, Y. Fan, A.M. El-Toni, M.S. Alhoshan, D. Li, F. Zhang
    Journal: Nano LettersVolume: 19 (4), Pages: 2418-2427
    Year: 2019
    Citations: 214
  9. “NIR-II bioluminescence for in vivo high contrast imaging and in situ ATP-mediated metastases tracing”
    Authors: L. Lu, B. Li, S. Ding, Y. Fan, S. Wang, C. Sun, M. Zhao, C.X. Zhao, F. Zhang
    Journal: Nature CommunicationsVolume: 11 (1), Article ID: 4192
    Year: 2020
    Citations: 205
  10. “Exploiting lanthanide-doped upconversion nanoparticles with core/shell structures”
    Authors: Y. Fan, L. Liu, F. Zhang
    Journal: Nano TodayVolume: 25, Pages: 68-84
    Year: 2019
    Citations: 198

 

Mahmoud Ghuniem | Analytical Chemistry | Best Researcher Award

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Dr. Mahmoud Ghuniem | Analytical Chemistry | Best Researcher Award

Researcher at Agricultural Research Center, Egypt

Mahmoud Mustafa Abd El Aziem Mohammed Ghuniem is a distinguished researcher and Deputy of the Heavy Metals Head Group at the Central Laboratory of Residue Analysis of Pesticides and Heavy Metals in Food, Agricultural Research Center, Egypt. With over 14 years of expertise in heavy metals analysis and laboratory management, Ghuniem is proficient in advanced techniques like Flame Atomic Absorption Spectrometry and Inductively Coupled Plasma Mass Spectrometry. He holds a PhD in Chemistry from Ain Shams University and has an impressive publication record in high-impact journals, addressing critical issues in food safety and environmental health. His commitment to professional growth is evident through numerous advanced training courses and workshops. Ghuniem’s work has earned him multiple certificates of appreciation from Modern Sciences and Arts University. His extensive experience, technical proficiency, and impactful research make him a strong candidate for the Research for Best Researcher Award.

Profile

Education

Mahmoud Mustafa Abd El Aziem Mohammed Ghuniem holds a robust academic foundation in applied chemistry. He completed his Bachelor of Science in Applied Chemistry at the Faculty of Science, Ain Shams University, in 2009. Building on this, he pursued a Master of Science in Chemistry at the same institution from 2014 to 2016. His academic journey culminated with a Doctorate in Chemistry from Ain Shams University in 2019. His doctoral research and subsequent work have focused extensively on heavy metals and analytical methods, underpinning his expertise in environmental and food safety analyses. His educational background is complemented by numerous specialized courses and training programs, enhancing his skills in advanced chromatographic techniques, laboratory management, and international standards for laboratory accreditation. This solid educational foundation supports his role as a Deputy Head of the Heavy Metals Group and a recognized researcher in his field.

Professional Experience

Mahmoud Mustafa Abd El Aziem Mohammed Ghuniem boasts over 14 years of extensive professional experience in the field of heavy metals analysis and laboratory management. As the Deputy Head of the Heavy Metals Group at the Central Laboratory of Residue Analysis of Pesticides and Heavy Metals in Food, Agricultural Research Center, Egypt, he plays a pivotal role in developing and validating analytical methods for metal contaminants in diverse matrices, including food, water, and environmental samples. His technical expertise spans advanced techniques such as Flame Atomic Absorption Spectrometry (F-AAS), Inductively Coupled Plasma Mass Spectrometry (ICP-MS), and Hydride Generation Atomic Absorption Spectrometry (HG-AAS). Ghuniem also serves as a Technical Expert/Assessor with the Egyptian Accreditation Council (EGAC), ensuring laboratory compliance with ISO standards. His experience is further enriched by his involvement in procuring laboratory equipment and his commitment to continuous professional development through various advanced training courses.

Research Interest

Mahmoud Mustafa Abd El Aziem Mohammed Ghuniem’s research interests primarily revolve around the analysis and management of heavy metals in various matrices, including food, water, and environmental samples. His expertise encompasses developing and validating advanced analytical methods for detecting metal contaminants using techniques such as Flame Atomic Absorption Spectrometry (F-AAS), Inductively Coupled Plasma Mass Spectrometry (ICP-MS), and Hydride Generation Atomic Absorption Spectrometry (HG-AAS). Ghuniem’s work is crucial in assessing the potential health risks associated with heavy metal exposure, particularly through food and environmental sources. His research also focuses on optimizing methodologies for the determination of essential and toxic elements in food products and environmental samples. By addressing these critical issues, his work contributes to ensuring food safety and environmental protection, aligning with public health interests and regulatory standards.

Research Skills

Mahmoud Mustafa Abd El Aziem Mohammed Ghuniem possesses a strong set of research skills honed over 14 years in the field of heavy metals analysis. His expertise includes the development and validation of analytical methods for detecting metal contaminants in diverse matrices such as food, water, and environmental samples. He is proficient in utilizing advanced techniques and instruments, including Flame Atomic Absorption Spectrometry (F-AAS), Inductively Coupled Plasma Mass Spectrometry (ICP-MS), and Hydride Generation Atomic Absorption Spectrometry (HG-AAS). Ghuniem’s ability to implement rigorous methodologies and handle sophisticated equipment underscores his technical adeptness. Additionally, his extensive experience with laboratory accreditation and compliance with ISO standards demonstrates his commitment to maintaining high-quality research practices. His publication record further reflects his research proficiency, with numerous contributions to high-impact journals addressing critical issues in environmental and food safety.

Award and Recognition

Mahmoud Mustafa Abd El Aziem Mohammed Ghuniem has been recognized for his exceptional contributions to the field of heavy metals analysis and environmental safety. With over 14 years of experience at the Central Laboratory of Residue Analysis of Pesticides and Heavy Metals in Food, his expertise spans various advanced analytical techniques. His research, published in high-impact journals, addresses critical issues such as metal contaminants in food and water, contributing significantly to public health and environmental protection. Ghuniem has earned multiple certificates of appreciation from Modern Sciences and Arts University, acknowledging his outstanding performance and dedication. His commitment to continuous professional development through advanced training courses and workshops further underscores his excellence in the field. These awards and recognitions highlight his pivotal role in advancing analytical methods and ensuring safety standards, affirming his status as a distinguished researcher and leader in his domain.

Conclusion

Mahmoud Mustafa Abd El Aziem Mohammed Ghuniem is a highly qualified candidate for the Research for Best Researcher Award. His extensive experience, technical skills, and significant research contributions position him as a strong contender. Enhancing the practical applications of his research, fostering interdisciplinary collaborations, and expanding his funding sources could further strengthen his profile. His dedication to continuous professional development and recognized achievements underline his suitability for this award.

Publications Top Notes

  1. Title: Determination of Some Element’s Migrants in Aqueous Simulant from Plastic Food Contact Products by Inductively Coupled Plasma Mass Spectrometer
    • Authors: Ghuniem, M.M.
    • Year: 2024
    • Citations: 0
  2. Title: Exposure and Cancer Risk Assessment of Polycyclic Aromatic Hydrocarbons (PAHs) in River Nile of Egypt
    • Authors: Refai, H.M., Helmy, A.M., Ghuniem, M.M.
    • Year: 2024
    • Citations: 3
  3. Title: Assessment of Human Health Risk Due to Potentially Toxic Elements Intake via Consumption of Egyptian Rice-Based and Wheat-Based Baby Cereals
    • Authors: Ghuniem, M.M., Khorshed, M.A., El-Safty, S.M., Souaya, E.R., Khalil, M.M.H.
    • Year: 2022
    • Citations: 8
  4. Title: Potential Human Health Risk Assessment of Potentially Toxic Elements Intake via Consumption of Soft Drinks Purchased from Different Egyptian Markets
    • Authors: Ghuniem, M.M., Khorshed, M.A., El-Safty, S.M., Souaya, E.R., Khalil, M.M.
    • Year: 2022
    • Citations: 9
  5. Title: Rapid Determination of Mercury in Dust Emission Using Cold Vapour Inductively Coupled Plasma Optical Emission Spectrometer (CV ICP OES)
    • Authors: El-Safty, S.M., Khorshed, M.A., Ghuniem, M.M.
    • Year: 2022
    • Citations: 9
  6. Title: Determination of Some Essential and Toxic Elements Composition of Commercial Infant Formula in the Egyptian Market and Their Contribution to Dietary Intake of Infants
    • Authors: Ghuniem, M.M., Khorshed, M.A., Khalil, M.M.H.
    • Year: 2020
    • Citations: 17
  7. Title: Method Validation for Direct Determination of Some Trace and Toxic Elements in Soft Drinks by Inductively Coupled Plasma Mass Spectrometry
    • Authors: Ghuniem, M.M., Khorshed, M.A., Souaya, E.R.
    • Year: 2019
    • Citations: 21
  8. Title: Optimization and Validation of an Analytical Method for the Determination of Some Trace and Toxic Elements in Canned Fruit Juices Using Quadrupole Inductively Coupled Plasma Mass Spectrometer
    • Authors: Ghuniem, M.M., Khorshed, M.A., Souaya, E.R.
    • Year: 2019
    • Citations: 15

 

Kadriye Ertekin | Analytical Chemistry | Women Researcher Award

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Ms. Kadriye Ertekin | Analytical Chemistry | Women Researcher Award

 Professor of Dokuz Eylül University, Turkey.

Born on February 9, 1964, in Batman, Turkey, Prof. Ertekin completed her secondary and higher education at İzmir Karşıyaka Girls’ High School and Ege University Faculty of Science. She earned her Master’s and Doctorate degrees from Celal Bayar University and Ege University, respectively. During her doctoral studies, she conducted research at the Institute of Analytical Chemistry, Chemo-and Biosensors, Regensburg University, Germany. She has authored 63 journal articles and presented 110 papers at national and international conferences, with over 1000 citations. Prof. Ertekin has been a faculty member in the Department of Analytical Chemistry at Dokuz Eylül University’s Faculty of Science since 2003. Her primary research areas include the development of chemical optical sensors for CO2, O2, cations, and pH, as well as fiber optic sensors, fluorescence and phosphorescence-based analyses, phosphorus materials, and chemical safety in occupational settings.

Profile
Education

Prof. Dr. Kadriye Ertekin completed her undergraduate studies in Chemistry at Ege University, Faculty of Science, Turkey, from 1980 to 1985. She then pursued her postgraduate degree in Analytical Chemistry at Celal Bayar University, completing her thesis in 1996. Her academic journey continued with a Doctorate in Chemistry from Ege University, where she conducted research at the Institute of Analytical Chemistry, Chemo-and Biosensors, University of Regensburg, Germany. She received her doctoral degree in 2001, focusing on the development of new optical sensors for cation sensing. Her education reflects a strong foundation in both theoretical and practical aspects of chemistry, complemented by international research experience, which has significantly influenced her subsequent contributions to the field of analytical chemistry.

Professional Experience

Ms. Kadriye Ertekin is a distinguished academic professional with extensive experience in the field of analytical chemistry. Since 2003, she has been a professor in the Chemistry Department at Dokuz Eylül University, where she focuses on chemical sensors and risk analysis. Her academic journey includes significant roles, such as serving as the Director of The Institution at Dokuz Eylül University from 2017 to 2020, and as the Farabi Program Institutional Coordinator from 2012 to 2015. She has also contributed as a member of the Academic Incentive Evaluation Commission since 2022. Ms. Ertekin’s research expertise encompasses developing chemical sensors for CO2, O2, and pH measurements, and she has over 60 SCI-indexed publications and more than 1,000 citations. Her work extends into teaching, where she supervises both postgraduate and doctoral students, advising on topics like optical sensors and chemical safety.

Research Interest

Prof. Kadriye Ertekin’s research interests lie primarily in the development and application of advanced chemical sensors and materials. Her work focuses on creating innovative optical sensors for detecting gases such as carbon dioxide and oxygen, as well as monitoring cation concentrations. Prof. Ertekin is particularly interested in fiber optic sensors and fluorescence-based analysis, exploring the integration of nanomaterials to enhance sensor performance. Her research extends to the study of phosphors and nanoscale functional materials, aiming to improve their optical properties and stability. Additionally, she investigates chemical safety risks in industrial environments, contributing to safer workplace practices through her work on chemical risk assessment and mitigation. Her contributions significantly advance the fields of analytical chemistry and material science, combining theoretical knowledge with practical applications to address contemporary challenges in chemical sensing and safety.

Research Skills

Prof. Kadriye Ertekin is a distinguished researcher with a robust skill set in analytical and chemical sensor development. Her expertise spans a range of advanced techniques including the development of optical sensors for detecting cations, carbon dioxide, and pH levels. Prof. Ertekin excels in designing and fabricating fiber optic sensors and nanosensors, employing her deep knowledge of fluorescence and phosphorescence-based analyses. Her proficiency extends to the manipulation of optical properties in nanoscale materials, which is critical for applications in environmental monitoring and industrial safety. Additionally, she is skilled in employing various spectroscopic and chromatographic methods to analyze and quantify chemical substances. Prof. Ertekin’s extensive experience in the synthesis and characterization of novel materials, coupled with her ability to integrate these materials into functional sensor systems, underscores her significant contributions to the field of analytical chemistry and sensor technology.

Awards and Recognition

Prof. Dr. Kadriye Ertekin has earned significant recognition for her contributions to the field of analytical chemistry. Her extensive research, particularly in developing optical sensors and studying chemical risk management, has been acknowledged through numerous awards and distinctions. Notably, she received the Dokuz Eylül University Academic Incentive Award for her outstanding research achievements. Her work has been recognized in the scientific community with multiple awards from national and international conferences, reflecting the impact of her innovative research on chemical sensors and nanomaterials. In addition to her academic honors, Prof. Ertekin has been appointed as a member of various scientific committees, underscoring her role as a leading expert in her field. Her dedication to advancing chemical sensor technologies and ensuring safety in chemical processes has established her as a prominent figure in analytical chemistry research.

Conclusion

Prof. Dr. Kadriye Ertekin is a distinguished academic and researcher in the field of analytical chemistry, with a notable focus on chemical and optical sensors. Her extensive education includes a Doctorate from Ege University and research experience at Regensburg University in Germany. She has contributed significantly to her field with over 60 published articles and numerous conference presentations. Her research interests encompass the development of sensors for detecting carbon dioxide, oxygen, and pH, as well as advancements in fiber optic sensors and nanomaterials. Prof. Ertekin’s work is highly regarded, as evidenced by her numerous citations and publications in SCI-indexed journals. At Dokuz Eylül University, she has held various significant academic and administrative roles, including serving as a member of the Academic Incentive Evaluation Commission and as Director of The Institution. Her dedication to research, teaching, and service underscores her profound impact on the field and her institution.

Publications Top Notes

  • “Emission-based sensing of cobalt (II) and vitamin B12 via a bis-indole derivative”
    • Authors: Mumcu, T., Oncuoglu, S., Hizliates, C.G., Ertekin, K.
    • Journal: Luminescence
    • Year: 2024
    • Volume: 39
    • Issue: 8
    • Article Number: e4863
  • “Quantification of Airborne Concentrations of Nanoscale Dusts by Particle Gravimetry Using Ionic-Liquid Modified Polymeric Electrospun Fibers”
    • Authors: Tok, Z., Ertekin, K.
    • Journal: Macromolecular Materials and Engineering
    • Year: 2024
    • Volume: 309
    • Issue: 7
    • Article Number: 2400062
  • “An emission based optical CO2 sensor fabricated on grating-like TiO2 substrates using HPTS”
    • Authors: Yilmaz, O., Ebeoglugil, F., Aydin, I., Dalmis, R., Ertekin, K.
    • Journal: Spectrochimica Acta – Part A: Molecular and Biomolecular Spectroscopy
    • Year: 2024
    • Volume: 305
    • Article Number: 123502
    • Citations: 2
  • “Enhanced luminescence of a silica-nitride phosphor; La3Si6N11 + by using Cr3+-activated TiO2 nanoparticles”
    • Authors: Aydin, I., Ertekin, K., Azem, F.A., Delice, T.K., Birlik, I.
    • Journal: International Journal of Ceramic Engineering and Science
    • Year: 2024
    • Volume: 6
    • Issue: 1
    • Article Number: e10198
  • “Quantification of airborne concentrations of micro-scale and submicron phosphors in the manufacturing environment by spectrofluorometric method”
    • Authors: Deniz, F., Ertekin, K., Ulucan, U.
    • Journal: Chemical Papers
    • Year: 2022
    • Volume: 76
    • Issue: 12
    • Pages: 7633–7646
  • “Investigation of TiO2 and Ce3+-activated TiO2 particles on optical properties of the PMMA embedded YAG: Ce3+ and LuAG: Ce3+”
    • Authors: Yildirim, B., Keskin, O.Y., Dalmis, R., Azem, F.A., Ertekin, K.
    • Journal: Optical Materials
    • Year: 2022
    • Volume: 133
    • Article Number: 112905
    • Citations: 2
  • “Enhancement of optical properties of Lu3Al5O12+ and Ca-α-SiAlON + by quinine sulphate”
    • Authors: Ulucan, U., Ertekin, K., Oğuzlar, S.
    • Journal: Journal of Materials Science: Materials in Electronics
    • Year: 2021
    • Volume: 32
    • Issue: 24
    • Pages: 28176–28191
    • Citations: 1
  • “Manipulation of brightness and decay kinetics of LuAG: Ce3+ and YAG: Ce3+ by simple metal oxides in polymeric matrices”
    • Authors: Yildirim, B., Yasin Keskin, O., Oguzlar, S., Ak Azem, F., Ertekin, K.
    • Journal: Optics and Laser Technology
    • Year: 2021
    • Volume: 142
    • Article Number: 107226
    • Citations: 7
  • “Investigation of light induced interactions between ZnO nano-particles and red emitting phosphor blends of Eu2+/Dy3+ doped strontium aluminate and Eu2+ doped Ca-α-Sialon”
    • Authors: Oguzlar, S., Zeyrek Ongun, M., Ertekin, K.
    • Journal: Journal of Luminescence
    • Year: 2021
    • Volume: 238
    • Article Number: 118236
    • Citations: 7
  • “Structural and luminescent properties of Er3+ and Tb3+-doped sol–gel-based bioactive glass powders and electrospun nanofibers”
    • Authors: Deliormanlı, A.M., Rahman, B., Oguzlar, S., Ertekin, K.
    • Journal: Journal of Materials Science
    • Year: 2021
    • Volume: 56
    • Issue: 26
    • Pages: 14487–14504
    • Citations: 15

Shahin Ahmadi | Chemometrics | Best Researcher Award

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Dr. Shahin Ahmadi | Chemometrics | Best Researcher Award

Associate Professor in Islamic Azad University Tehran Medical Science, Iran.

Shahin Ahmadi is an accomplished Assistant Professor in Analytical Chemistry at Islamic Azad University with a robust academic background, holding a B.Sc., M.Sc., and Ph.D. from Razi University of Kermanshah. Over his extensive teaching career, he has also served as a guest lecturer at multiple universities. Ahmadi’s notable achievements include multiple “Top Researcher” awards and an impressive publication record with influential papers in journals such as Journal of Molecular Structure and Medicinal Chemistry Research. His research spans QSAR modeling, drug design, and environmental applications. Actively engaged in the scientific community, he reviews for esteemed journals and presents at international conferences. His role as a thesis advisor further underscores his commitment to nurturing future researchers. While his impact is significant, expanding interdisciplinary collaborations and public engagement could enhance his research’s societal reach and innovation.

Profile
Education

Shahin Ahmadi’s educational journey began with a Bachelor of Science in Applied Chemistry from Kashan University in 2000. He further pursued a Master of Science in Analytical Chemistry at Razi University of Kermanshah, completing his degree in 2002. Building on this foundation, he earned a Ph.D. in Analytical Chemistry from the same institution in 2007. His advanced education has provided him with a comprehensive understanding of analytical techniques and methodologies, equipping him with the skills needed to excel in both academic and research environments. This strong educational background has been instrumental in shaping his career as an Assistant Professor at Islamic Azad University and in his significant contributions to the field of Analytical Chemistry.

Professional Experience

Dr. Shahin Ahmadi is an esteemed Assistant Professor in the field of Analytical Chemistry at Islamic Azad University, Kermanshah, where he has served since 2003. His teaching portfolio includes courses such as Advanced Analytical Chemistry and Analytical Spectroscopy across several Islamic Azad University campuses. Dr. Ahmadi’s research contributions are well-recognized, with multiple awards for top researcher at his university from 2012 to 2016. His research includes significant publications in reputable journals, with topics ranging from QSAR modeling to environmental applications. Dr. Ahmadi has also played a crucial role as a reviewer for several high-impact scientific journals and has actively participated in various national and international conferences. His role as a thesis advisor for numerous M.Sc. students further highlights his commitment to advancing knowledge in Analytical Chemistry and nurturing the next generation of researchers.

Research Interest

Shahin Ahmadi’s research interests lie primarily in Analytical Chemistry, with a focus on developing advanced methodologies for analyzing chemical compounds and understanding their interactions. His work extensively covers Quantitative Structure-Activity Relationship (QSAR) modeling, where he explores the predictive relationships between chemical structure and biological activity, particularly in drug design and environmental applications. Ahmadi’s research includes the use of computational methods like Monte Carlo simulations and genetic algorithms to predict the behavior of chemical substances, including their adsorption properties and cytotoxic activities. Additionally, he investigates the application of novel materials, such as polypyrrole-modified magnetic nanoparticles, for the sensitive detection and extraction of pharmaceuticals and environmental pollutants. His interdisciplinary approach also encompasses chemometrics and experimental design, aiming to enhance analytical techniques and contribute to advancements in pharmaceutical chemistry, environmental science, and material science.

Research Skills

Shahin Ahmadi possesses a robust set of research skills that underscore his expertise in Analytical Chemistry. His proficiency in Quantitative Structure-Activity Relationship (QSAR) Modeling and Monte Carlo Methods reflects a deep understanding of predictive modeling and computational techniques, essential for drug design and environmental analysis. His experience with Polypyrrole-modified Magnetic Nanoparticles and Solid-Phase Extraction demonstrates advanced capabilities in developing innovative materials for analytical applications. Ahmadi’s adeptness in High-Performance Liquid Chromatography (HPLC) and Chemometrics further enhances his ability to conduct precise and sophisticated chemical analyses. Additionally, his work with Genetic Algorithms and Self-Organizing Maps showcases his skills in optimizing and interpreting complex data. Through his extensive publication record and successful supervision of M.Sc. theses, Ahmadi has demonstrated exceptional analytical skills, research design, and data interpretation capabilities, contributing significantly to his field.

Awards and Recognition

Shahin Ahmadi has garnered significant recognition for his exceptional contributions to the field of Analytical Chemistry. He has been honored as the “Top Researcher” at Islamic Azad University, Kermanshah Branch, for five consecutive years from 2012 to 2016, reflecting his consistent excellence in research. His scholarly work has been widely acknowledged through numerous publications in esteemed journals, including Journal of Molecular Structure and Medicinal Chemistry Research. Additionally, Ahmadi’s role as a reviewer for prestigious scientific journals such as TALANTA and SAR and QSAR in Environmental Research underscores his respected standing within the academic community. His active participation in international conferences and workshops further highlights his commitment to advancing scientific knowledge and fostering collaborative research. These accolades collectively affirm his distinguished position and substantial impact within the field of Analytical Chemistry.

Conclusion

Shahin Ahmadi is a strong candidate for the Best Researcher Award due to his extensive academic background, numerous honors, and active engagement in research and scientific communities. His contributions to Analytical Chemistry through a prolific publication record, consistent recognition, and role as a mentor demonstrate a high level of expertise and commitment. Addressing areas for improvement, such as fostering interdisciplinary collaborations and enhancing public engagement, could further strengthen his impact and visibility in the field.

Publications Top Notes

  • Simultaneous determination of copper, nickel, cobalt and zinc using zincon as a metallochromic indicator with partial least squares
    • Authors: J. Ghasemi, S. Ahmadi, K. Torkestani
    • Journal: Analytica Chimica Acta
    • Year: 2003
    • Citations: 107
  • Mathematical modeling of cytotoxicity of metal oxide nanoparticles using the index of ideality correlation criteria
    • Authors: S. Ahmadi
    • Journal: Chemosphere
    • Year: 2020
    • Citations: 86
  • Increasing the electrical efficiency and thermal management of a photovoltaic module using expanded graphite (EG)/paraffin-beef tallow-coconut oil composite as phase change material
    • Authors: B. Karami, N. Azimi, S. Ahmadi
    • Journal: Renewable Energy
    • Year: 2021
    • Citations: 49
  • Novel electrochemical sensor based on modified glassy carbon electrode with graphene quantum dots, chitosan and nickel molybdate nanocomposites for diazinon and optimal design
    • Authors: T. Ghiasi, S. Ahmadi, E. Ahmadi, MRTB Olyai, Z. Khodadadi
    • Journal: Microchemical Journal
    • Year: 2021
    • Citations: 45
  • Prediction of the adsorption coefficients of some aromatic compounds on multi-wall carbon nanotubes by the Monte Carlo method
    • Authors: S. Ahmadi, A. Akbari
    • Journal: SAR and QSAR in Environmental Research
    • Year: 2018
    • Citations: 45
  • Determination of acidity constants of 4-(2-pyridylazo) resorcinol in binary acetonitrile+ water mixtures
    • Authors: J. Ghasemi, S. Ahmadi, M. Kubista, A. Forootan
    • Journal: Journal of Chemical & Engineering Data
    • Year: 2003
    • Citations: 44
  • Predictive QSAR modeling for the antioxidant activity of natural compounds derivatives based on Monte Carlo method
    • Authors: S. Ahmadi, H. Ghanbari, S. Lotfi, N. Azimi
    • Journal: Molecular Diversity
    • Year: 2021
    • Citations: 43
  • Combination of genetic algorithm and partial least squares for cloud point prediction of nonionic surfactants from molecular structures
    • Authors: J. Ghasemi, S. Ahmadi
    • Journal: Annali di Chimica: Journal of Analytical, Environmental and Cultural Chemistry
    • Year: 2007
    • Citations: 43
  • Prediction of chalcone derivative cytotoxicity activity against MCF-7 human breast cancer cell by Monte Carlo method
    • Authors: S. Ahmadi, F. Mardinia, N. Azimi, M. Qomi, E. Balali
    • Journal: Journal of Molecular Structure
    • Year: 2019
    • Citations: 42
  • Correlation intensity index: Mathematical modeling of cytotoxicity of metal oxide nanoparticles
    • Authors: S. Ahmadi, A.P. Toropova, A.A. Toropov
    • Journal: Nanotoxicology
    • Year: 2020
    • Citations: 38