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

RAM KUMAR P | Chemistry | Best Researcher Award

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Dr. RAM KUMAR P | Chemistry | Best Researcher Award

Assistant Professor of Thiagarajar College of Engineering, Madurai, India.

Dr. P. Ram Kumar is an Assistant Professor of Chemistry at Thiagarajar College of Engineering, Madurai, Tamil Nadu, India. With a strong academic background, including a PhD in Chemistry from Anna University, his research interests encompass a wide range of innovative topics such as the development of meso and β-functionalized porphyrins, semiconductor photoanode materials for dye-sensitized solar cells (DSSCs), and the synthesis of porous aerogels for energy and photocatalysis applications. Dr. Ram Kumar has made significant contributions to the field of material science, particularly in the synthesis and application of metal-organic frameworks, quantum dots, and modified carbon nanostructures. He has published extensively in high-impact journals, with a cumulative impact factor of 85.1. His work is recognized in the scientific community, reflected by his role as a research guide and supervisor at Anna University. His expertise in advanced instrumentation and experimental techniques further solidifies his standing in the field.

Profile
Education

Dr. P. Ram Kumar pursued his academic journey in Chemistry with notable accomplishments. He earned his Bachelor’s degree in Chemistry from S.T. Hindu College, Nagercoil, affiliated with Manonmaniam Sundaranar University, in 2013. He continued his studies at Noorul Islam University, Kumaracoil, where he completed his Master’s degree in Chemistry with distinction in 2015. Dr. Kumar further advanced his expertise by obtaining a Ph.D. in Chemistry from PSN College of Engineering & Technology, Tirunelveli, under the supervision of Associate Professor Dr. E. M. Mothi, in 2020. His doctoral research focused on synthesizing and investigating porphyrins for dye-sensitized solar cells, reflecting his deep engagement in materials chemistry and energy applications. His academic background provides a solid foundation for his current role as an Assistant Professor in the Department of Science and Humanities at Thiagarajar College of Engineering, Madurai.

Professional Experience

Dr. P. Ram Kumar is an accomplished Assistant Professor of Chemistry at Thiagarajar College of Engineering, Madurai, with a diverse academic background and extensive experience in research and teaching. He has held previous positions at various institutions, including National Engineering College, Lord Jegannath College of Engineering & Technology, and PSN College of Engineering & Technology. Dr. Kumar earned his PhD in Chemistry from PSN College of Engineering & Technology, where his research focused on porphyrins for dye-sensitized solar cells. He has actively contributed to numerous research projects, securing funding from organizations such as UGC and DST-SERB. Dr. Kumar’s research interests include functionalized porphyrins, photoanode materials, and metal-organic frameworks. His expertise is supported by a robust publication record in high-impact journals, and he has presented his work at various national and international conferences, reflecting his significant contributions to the field of chemistry and materials science.

Research Interest

Dr. P. Ram Kumar’s research focuses on several innovative areas within chemistry and materials science. His work primarily involves the development of simplified synthetic routes to meso and β-functionalized porphyrins, which are crucial for various applications, including dye-sensitized solar cells (DSSCs). He explores new semi-conducting photoanode materials such as titanates and stannates for enhancing the efficiency of DSSCs. Dr. Kumar is also dedicated to synthesizing and applying porous aerogels in energy and photocatalysis, and investigating metal-organic frameworks (MOFs) for energy applications. His research includes the development of chemosensors, modified carbon nanostructures, and quantum dots for LED applications. Dr. Kumar’s work contributes significantly to advancing materials for energy conversion and storage, highlighting his expertise in creating novel materials and technologies that address contemporary challenges in energy and environmental sciences.

Research Skills

Dr. P. Ram Kumar possesses a robust set of research skills essential for advancing in the field of chemistry and material sciences. His expertise includes the synthesis and characterization of advanced materials such as porphyrins, metal-organic frameworks, and quantum dots, demonstrating proficiency in developing innovative solutions for energy and photocatalysis applications. He is adept in a range of instrumental techniques including FT-IR, UV-Vis spectrophotometry, and impedance spectroscopy, which are crucial for analyzing material properties and performance. Dr. Kumar’s experience extends to hands-on skills with Schlenk line techniques, sol-gel processing, and electrochemical measurements. His work on dye-sensitized solar cells (DSSCs) and porous aerogels highlights his ability to integrate experimental findings with theoretical models, contributing to advancements in renewable energy technologies. Furthermore, his role as a research guide and supervisor showcases his capability in mentoring and guiding PhD students, reflecting his comprehensive understanding of both fundamental and applied chemistry.

Awards and Recognition

Dr. P. Ram Kumar has received notable recognition throughout his career. In 2015, he achieved third rank in his MSc Chemistry program at Noorul Islam University. His research excellence was further acknowledged with the PSN Research Fellowship, awarded from 2016 to 2019. Dr. Kumar’s academic contributions have been well-received in the scientific community, as evidenced by his cumulative impact factor of 85.1 and multiple high-impact publications. He has presented his research at several prestigious conferences, including winning the Best Paper Award at the National Conference on Recent Advances in Chemical Sciences in 2017. Additionally, Dr. Kumar’s work has been recognized for its innovative approach in solar energy materials and photocatalysis, reinforcing his reputation as a leading researcher in his field. His commitment to advancing scientific knowledge is reflected in his ongoing contributions to both research and academic mentorship.

Conclusion

Dr. P. Ram Kumar is a strong candidate for the Research for Life Sciences Innovation Award, particularly due to his innovative research in energy materials and photocatalysis. His work is well-aligned with the award’s focus on innovation and impact. To strengthen his candidacy further, he could focus on increasing patent activity, participating in more international conferences, and exploring interdisciplinary research opportunities that align with life sciences applications.

Publications Top Notes

  1. “Highly interconnected porous TiO2-Ni-MOF composite aerogel photoanodes for high power conversion efficiency in quasi-solid dye-sensitized solar cells”
    • Authors: V Ramasubbu, PR Kumar, EM Mothi, K Karuppasamy, HS Kim, …
    • Journal: Applied Surface Science
    • Year: 2019
    • Volume: 496
    • Article Number: 143646
    • Citations: 80
  2. “Small molecule “turn on” fluorescent probe for silver ion and application to bioimaging”
    • Authors: N Bhuvanesh, S Suresh, PR Kumar, EM Mothi, K Kannan, VR Kannan, …
    • Journal: Journal of Photochemistry and Photobiology A: Chemistry
    • Year: 2018
    • Volume: 360
    • Pages: 6-12
    • Citations: 30
  3. “Zn (II) porphyrin sensitized (TiO2@ Cd-MOF) nanocomposite aerogel as novel photocatalyst for the effective degradation of methyl orange (MO) dye”
    • Authors: V Ramasubbu, PR Kumar, T Chellapandi, G Madhumitha, EM Mothi, …
    • Journal: Optical Materials
    • Year: 2022
    • Volume: 132
    • Article Number: 112558
    • Citations: 29
  4. “Zinc titanate nanomaterials—Photocatalytic studies and sensitization of hydantoin derivatized porphyrin dye”
    • Authors: M Sarkar, S Sarkar, A Biswas, S De, PR Kumar, EM Mothi, A Kathiravan
    • Journal: Nano-Structures & Nano-Objects
    • Year: 2020
    • Volume: 21
    • Article Number: 100412
    • Citations: 28
  5. “Porphyrin-sensitized quasi-solid solar cells with MOF composited titania aerogel photoanodes”
    • Authors: PR Kumar, V Ramasubbu, XS Shajan, EM Mothi
    • Journal: Materials Today Energy
    • Year: 2020
    • Volume: 18
    • Article Number: 100511
    • Citations: 26
  6. “Synthesis and electronic properties of A3B-thienyl porphyrins: experimental and computational investigations”
    • Authors: PR Kumar, NJ Britto, A Kathiravan, A Neels, M Jaccob, EM Mothi
    • Journal: New Journal of Chemistry
    • Year: 2019
    • Volume: 43(3)
    • Pages: 1569-1580
    • Citations: 23
  7. “Zn-Porphyrin propped with hydantoin anchor: synthesis, photophysics and electron injection/recombination dynamics”
    • Authors: PR Kumar, EM Mothi, M Ramesh, A Kathiravan
    • Journal: Physical Chemistry Chemical Physics
    • Year: 2018
    • Volume: 20(7)
    • Pages: 5117-5127
    • Citations: 15
  8. “Pyridyl/hydroxyphenyl versus carboxyphenyl anchoring moieties in Zn–Thienyl porphyrins for dye-sensitized solar cells”
    • Authors: PR Kumar, XS Shajan, EM Mothi
    • Journal: Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy
    • Year: 2020
    • Volume: 224
    • Article Number: 117408
    • Citations: 13
  9. “Experimental and simulation studies of platinum-free counter electrode material for titania aerogel-based quasi-solid dye-sensitized solar cell”
    • Authors: SC Ramesh, P Ramkumar, CC Columbus, XS Shajan
    • Journal: IEEE Journal of Photovoltaics
    • Year: 2020
    • Volume: 10(6)
    • Pages: 1757-1761
    • Citations: 11
  10. “Oxygenated carbon functionalized TiO2 aerogel surface: Facile synthesis, surface, structural and photovoltaic investigations”
    • Authors: PR Kumar, S Alwin, XS Shajan
    • Journal: Surfaces and Interfaces
    • Year: 2023
    • Volume: 37
    • Article Number: 102727
    • Citations: 7