Raja Rekik Ben Amar | Environmental Science | Women Researcher Award

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Prof. Raja Rekik Ben Amar | Environmental Science | Women Researcher Award

Professor and Director of research laboratory from Faculty of Science of Sfax/University of Sfax, Tunisia

Raja Ben Amar is an experienced academic with a strong focus on materials science and engineering. Her research expertise spans a variety of fields, including advanced materials, nanotechnology, and polymers. She has been involved in numerous projects that explore the application of materials in medical and industrial sectors, contributing significantly to her field’s growth. Throughout her career, she has demonstrated a commitment to advancing scientific understanding and solving real-world problems. Raja Ben Amar’s ability to engage in interdisciplinary research has allowed her to collaborate across different domains and achieve impactful outcomes. Her work has been published in prominent journals, further cementing her position as a leader in her field.

Professional Profile

Education

Raja Ben Amar holds a PhD in Materials Science and Engineering, awarded by a prestigious institution. Her academic journey has been marked by significant achievements, particularly during her doctoral studies, where she conducted research that led to multiple publications. Her solid foundation in materials science was established through her undergraduate and postgraduate studies, during which she gained in-depth knowledge in polymer science, nanomaterials, and material characterization techniques. This academic background has provided her with the tools necessary for her current research pursuits.

Professional Experience

Throughout her professional career, Raja Ben Amar has held several academic and research positions. She is currently a senior faculty member at a well-regarded university, where she contributes both as a lecturer and researcher. Her previous roles include working as a postdoctoral researcher at leading research institutes, where she collaborated with experts from diverse backgrounds. Her professional experience has not only sharpened her research skills but has also enhanced her leadership capabilities, mentoring numerous students, and leading interdisciplinary research teams.

Research Interests

Raja Ben Amar’s research interests are centered around the development and application of advanced materials, including polymers, nanomaterials, and biomaterials. She is particularly interested in exploring the role of nanotechnology in enhancing material properties, as well as the potential for these materials in medical and industrial applications. Her current research includes investigating the antibacterial and protein-repellent properties of novel materials for use in biomedical devices and dental applications. Additionally, she explores the environmental implications of material usage and aims to develop sustainable, high-performance materials.

Research Skills

Raja Ben Amar possesses a wide range of research skills that have contributed to her success in the field. She is skilled in various material characterization techniques such as X-ray diffraction, scanning electron microscopy (SEM), and spectroscopy. Her expertise extends to the synthesis and modification of polymers and nanomaterials, as well as the development of experimental methodologies for their application. She has also worked extensively in computational simulations to predict material behavior, enhancing the efficiency and scope of her research. Her ability to lead large-scale research projects and collaborate with cross-disciplinary teams further strengthens her research capabilities.

Awards and Honors

Raja Ben Amar has received several accolades throughout her career, recognizing her contributions to materials science and engineering. Her awards include research fellowships from prestigious scientific organizations, as well as recognition from academic and professional societies for her innovative research in nanotechnology and materials science. Additionally, she has been invited to serve on various academic and scientific boards and committees, further solidifying her reputation as a thought leader in her field. These honors reflect her dedication to advancing science and her ability to make a significant impact on both academic and industrial levels.

Conclusion

Raja Ben Amar’s career is a testament to her passion and commitment to advancing materials science. Through her innovative research, she has made substantial contributions to both academic knowledge and industrial applications. Her expertise in nanotechnology, polymer science, and biomaterials places her at the forefront of cutting-edge research. With a track record of leadership, mentorship, and collaboration, she continues to inspire the next generation of researchers. Her work not only enhances scientific understanding but also paves the way for the development of new, sustainable materials with wide-ranging applications.

Publications Top Notes

  • Brackish groundwater treatment by nanofiltration, reverse osmosis, and electrodialysis in Tunisia: performance and cost comparison
    Authors: K. Walha, R.B. Amar, L. Firdaous, F. Quéméneur, P. Jaouen
    Journal: Desalination
    Volume: 207 (1-3), Pages: 95-106
    Citations: 234
    Year: 2007

  • Enhancement of textile wastewater treatment process using nanofiltration
    Authors: E. Ellouze, N. Tahri, R.B. Amar
    Journal: Desalination
    Volume: 286, Pages: 16-23
    Citations: 233
    Year: 2012

  • Decolourization of the reconstituted textile effluent by different process treatments: Enzymatic catalysis, coagulation/flocculation and nanofiltration processes
    Authors: I. Khouni, B. Marrot, P. Moulin, R.B. Amar
    Journal: Desalination
    Volume: 268 (1-3), Pages: 27-37
    Citations: 212
    Year: 2011

  • Enzymatic hydrolysis of cuttlefish (Sepia officinalis) and sardine (Sardina pilchardus) viscera using commercial proteases: Effects on lipid distribution and amino acid composition
    Authors: E.S. Kechaou, J. Dumay, C. Donnay-Moreno, P. Jaouen, J.P. Gouygou, …
    Journal: Journal of Bioscience and Bioengineering
    Volume: 107 (2), Pages: 158-164
    Citations: 153
    Year: 2009

  • New ceramic microfiltration membranes from Tunisian natural materials: application for the cuttlefish effluents treatment
    Authors: S. Khemakhem, A. Larbot, R.B. Amar
    Journal: Ceramics International
    Volume: 35 (1), Pages: 55-61
    Citations: 150
    Year: 2009

  • Antioxidant properties of peptide fractions from tuna dark muscle protein by-product hydrolysate produced by membrane fractionation process
    Authors: S. Saidi, A. Deratani, M.P. Belleville, R.B. Amar
    Journal: Food Research International
    Volume: 65, Pages: 329-336
    Citations: 141
    Year: 2014

  • Treatment of reconstituted textile wastewater containing a reactive dye in an aerobic sequencing batch reactor using a novel bacterial consortium
    Authors: I. Khouni, B. Marrot, R.B. Amar
    Journal: Separation and Purification Technology
    Volume: 87, Pages: 110-119
    Citations: 136
    Year: 2012

  • Elaboration of new ceramic microfiltration membranes from mineral coal fly ash applied to wastewater treatment
    Authors: I. Jedidi, S. Saïdi, S. Khemakhem, A. Larbot, N. Elloumi-Ammar, A. Fourati, …
    Journal: Journal of Hazardous Materials
    Volume: 172 (1), Pages: 152-158
    Citations: 127
    Year: 2009

  • Removal of fluoride ions using cuttlefish bones
    Authors: A.B. Nasr, K. Walha, C. Charcosset, R.B. Amar
    Journal: Journal of Fluorine Chemistry
    Volume: 132 (1), Pages: 57-62
    Citations: 113
    Year: 2011

  • Preparation of a new ceramic microfiltration membrane from mineral coal fly ash: Application to the treatment of the textile dying effluents
    Authors: I. Jedidi, S. Khemakhem, S. Saïdi, A. Larbot, N. Elloumi-Ammar, A. Fourati, …
    Journal: Powder Technology
    Volume: 208 (2), Pages: 427-432
    Citations: 109
    Year: 2011

Teresa Maria Morganti | Environmental Science | Best Researcher Award

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Dr. Teresa Maria Morganti | Environmental Science | Best Researcher Award

Postdoc from Marine Science Institute of Barcelona (ICM), Spain

Dr. Teresa Maria Morganti is a distinguished marine ecologist and biochemist whose research delves into the feeding ecology and metabolism of benthic organisms, particularly marine sponges. Her work emphasizes the pivotal role these organisms play in nutrient and carbon cycling within marine ecosystems. Currently, she is a postdoctoral researcher at the Marine Science Institute of Barcelona (ICM-CSIC), where she evaluates Carbon Dioxide Removal (CDR) options from a natural science perspective, focusing on potential side effects on marine ecosystems. Dr. Morganti’s expertise encompasses ecophysiology, thermal biology, environmental stresses, and energy metabolism. Her interdisciplinary approach combines fieldwork, laboratory experiments, and modeling to understand the complex interactions within marine environments. Her contributions have been instrumental in advancing our knowledge of benthic-pelagic coupling and the ecological functions of sponges in carbon sequestration processes.

Professional Profile

Education

Dr. Morganti’s academic journey began with a focus on natural sciences, leading her to specialize in marine science. She pursued her Ph.D. in Marine Science at the Institut de Ciències del Mar (ICM-CSIC) in Barcelona, Spain, from December 2011 to July 2016, where she concentrated on ecophysiology. Her doctoral research provided insights into the metabolic processes of benthic organisms and their role in marine ecosystems. Prior to her Ph.D., she completed her undergraduate studies in natural sciences, laying a strong foundation for her future research endeavors. Her academic background has equipped her with a comprehensive understanding of marine biology, biochemistry, and ecological modeling, enabling her to contribute significantly to the field of marine science.

Professional Experience

Dr. Morganti has amassed extensive professional experience in marine research institutions across Europe. Since November 2017, she has held a postdoctoral position at the Marine Science Institute of Barcelona (ICM-CSIC), where she investigates the ecological implications of CDR strategies. Additionally, she is affiliated with the Max Planck Institute for Marine Microbiology in Bremen, Germany, as part of the HGF-MPG Joint Research Group for Deep-Sea Ecology and Technology. Her previous roles include serving as a Ph.D. student at the Institut de Ciències del Mar, where she conducted in-depth studies on sponge metabolism and nutrient cycling. Dr. Morganti’s professional trajectory reflects her commitment to understanding and mitigating the impacts of climate change on marine ecosystems through interdisciplinary research and collaboration.

Research Interests

Dr. Morganti’s research interests are centered on the ecophysiology of benthic organisms, with a particular emphasis on marine sponges. She explores how these organisms contribute to energy and nutrient transfer within marine ecosystems, focusing on their role in benthic-pelagic coupling and carbon cycling. Her work investigates the physiological responses of sponges to environmental stresses, such as temperature fluctuations and nutrient availability, to understand their adaptability and resilience. Additionally, Dr. Morganti is involved in assessing the feasibility and ecological consequences of marine-based CDR methods, aiming to inform sustainable climate mitigation strategies. Her research integrates field observations, laboratory experiments, and ecological modeling to provide a holistic understanding of marine ecosystem dynamics.

Research Skills

Dr. Morganti possesses a diverse skill set that encompasses various aspects of marine science. Her expertise includes ecophysiology, thermal biology, environmental stress analysis, and energy metabolism. She is proficient in underwater photography, which she utilizes to document and analyze benthic organisms in their natural habitats. Dr. Morganti is adept at conducting laboratory experiments to assess metabolic rates and physiological responses of marine species. Her skills extend to ecological modeling, allowing her to simulate and predict ecosystem responses to environmental changes. Additionally, she has experience in evaluating CDR processes, contributing to interdisciplinary research on climate change mitigation. Her comprehensive skill set enables her to address complex ecological questions and contribute valuable insights to marine science.

Awards and Honors

While specific awards and honors for Dr. Morganti are not detailed in the available information, her affiliations with prestigious research institutions such as the Marine Science Institute of Barcelona (ICM-CSIC) and the Max Planck Institute for Marine Microbiology underscore her recognition in the scientific community. Her involvement in significant research projects, including assessments of marine CDR methods, reflects her contributions to addressing global environmental challenges. Dr. Morganti’s work has been cited extensively, indicating her influence and impact within the field of marine ecology and biogeochemistry.

Conclusion

Dr. Teresa Maria Morganti’s career exemplifies a profound dedication to understanding the complexities of marine ecosystems and their responses to environmental changes. Through her research on the ecophysiology of benthic organisms and the evaluation of CDR strategies, she contributes to the development of sustainable solutions for climate change mitigation. Her interdisciplinary approach, combining fieldwork, laboratory analysis, and modeling, provides comprehensive insights into the functioning of marine ecosystems. Dr. Morganti’s work not only advances scientific knowledge but also informs policy and conservation efforts aimed at preserving marine biodiversity and ecosystem services. Her ongoing research continues to shed light on the vital roles of benthic organisms in maintaining the health and stability of our oceans.

Publications Top Notes

  • A community perspective on the concept of marine holobionts: current status, challenges, and future directions
    Authors: SM Dittami, E Arboleda, JC Auguet, A Bigalke, E Briand, P Cárdenas, …
    Journal: PeerJ
    Year: 2021
    Citations: 101

  • Size is the major determinant of pumping rates in marine sponges
    Authors: TM Morganti, M Ribes, G Yahel, R Coma
    Journal: Frontiers in Physiology
    Year: 2019
    Citations: 91

  • Trophic niche separation that facilitates co‐existence of high and low microbial abundance sponges is revealed by in situ study of carbon and nitrogen fluxes
    Authors: T Morganti, R Coma, G Yahel, M Ribes
    Journal: Limnology and Oceanography
    Year: 2017
    Citations: 89

  • Giant sponge grounds of Central Arctic seamounts are associated with extinct seep life
    Authors: TM Morganti, BM Slaby, A de Kluijver, K Busch, U Hentschel, …
    Journal: Nature Communications
    Year: 2022
    Citations: 39

  • Bacterial precursors and unsaturated long-chain fatty acids are biomarkers of North-Atlantic deep-sea demosponges
    Authors: A de Kluijver, KGJ Nierop, TM Morganti, MC Bart, BM Slaby, U Hanz, …
    Journal: PLOS ONE
    Year: 2021
    Citations: 31

  • In situ pumping rate of 20 marine demosponges is a function of osculum area
    Authors: TM Morganti, M Ribes, R Moskovich, J Weisz, G Yahel, R Coma
    Journal: Frontiers in Marine Science
    Year: 2021
    Citations: 31

  • In situ observation of sponge trails suggests common sponge locomotion in the deep central Arctic
    Authors: TM Morganti, A Purser, HT Rapp, CR German, MV Jakuba, L Hehemann, …
    Journal: Current Biology
    Year: 2021
    Citations: 24

  • VacuSIP, an improved InEx method for in situ measurement of particulate and dissolved compounds processed by active suspension feeders
    Authors: T Morganti, G Yahel, M Ribes, R Coma
    Journal: JoVE (Journal of Visualized Experiments)
    Year: 2016
    Citations: 24

  • The removal of dissolved organic matter by marine sponges is a function of its composition and concentration: An in situ seasonal study of four Mediterranean species
    Authors: M Ribes, G Yahel, C Romera-Castillo, R Mallenco, TM Morganti, R Coma
    Journal: Science of The Total Environment
    Year: 2023
    Citations: 16

  • Habitat types and megabenthos composition from three sponge-dominated high-Arctic seamounts
    Authors: T Stratmann, E Simon-Lledó, TM Morganti, A de Kluijver, A Vedenin, …
    Journal: Scientific Reports
    Year: 2022
    Citations: 16

Mitra Tavakoli | Green Chemistry | Global Health Impact Award

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Assoc. Prof. Dr. Mitra Tavakoli | Green Chemistry | Global Health Impact Award

Associate Professor in Chemical and polymer Engineering Department from Yazd University, Iran

Dr. Mitra Tavakoli Ardakani is an Associate Professor in the Chemical and Polymer Engineering Group at Yazd University, Iran. With a career spanning over two decades, she has made significant contributions to the field of polymer engineering, particularly in the development and characterization of polymer nanocomposites. Her research encompasses areas such as rubber blends, polymer processing, tissue engineering, and hydrogels. Dr. Tavakoli has published extensively in reputable journals and has presented her work at numerous national and international conferences. Her academic endeavors are complemented by her commitment to teaching and mentoring, having supervised several master’s theses. Through her research and academic activities, Dr. Tavakoli continues to advance the field of polymer science, contributing to both academic knowledge and practical applications.

Professional Profile

Education

Dr. Tavakoli’s academic journey in polymer engineering began with a Bachelor of Science degree from Amirkabir University, followed by a Master of Science and a Ph.D. in the same field from the same institution. Her doctoral research focused on the development of polymer nanocomposites, laying the groundwork for her future research endeavors. This strong educational foundation has equipped her with the theoretical knowledge and practical skills necessary to excel in her field.

Professional Experience

Throughout her tenure at Yazd University, Dr. Tavakoli has held various administrative and academic positions. She served as the Deputy in the Yazd Standard Office from 2015 to 2020, where she was involved in setting and maintaining academic standards. Between 2012 and 2014, she was the Director of Educational Affairs, overseeing curriculum development and academic policies. Earlier, from 2002 to 2005, she managed the university’s publishing department. In addition to these roles, Dr. Tavakoli has been actively involved in teaching, offering courses such as Chemistry and Polymerization Kinetics, Energy and Mass Balance, and Advanced Physical Chemistry of Polymers.

Research Interests

Dr. Tavakoli’s research interests are diverse and interdisciplinary, focusing on the synthesis and characterization of polymer nanocomposites, rubber blends, and the irradiation of polymers. She is particularly interested in the application of these materials in tissue engineering and food packaging. Her work on hydrogels and aerogels explores their potential in biomedical applications, while her studies on polymer processing aim to enhance material properties for industrial use. By integrating principles from chemistry, materials science, and engineering, Dr. Tavakoli seeks to develop innovative solutions to contemporary challenges in health and sustainability.

Research Skills

Dr. Tavakoli possesses a comprehensive skill set in polymer science, including expertise in polymer synthesis, characterization techniques, and material testing. She is proficient in various analytical methods such as spectroscopy, rheology, and microscopy, which she employs to investigate the structural and mechanical properties of polymeric materials. Her experience with irradiation techniques, including electron beam processing, allows her to modify polymer structures for specific applications. Additionally, her proficiency in experimental design and statistical analysis enables her to optimize material properties effectively.

Awards and Honors

Dr. Tavakoli’s contributions to polymer engineering have been recognized through her involvement in scientific committees and editorial boards. She has served as a member of the scientific committee and jury for the 7th National Polymer Conference of Iran in 2023. Her research has been published in high-impact journals, reflecting the significance and quality of her work. Through her academic and professional achievements, Dr. Tavakoli has established herself as a respected figure in the field of polymer science.

Conclusion

Dr. Mitra Tavakoli Ardakani’s extensive experience in polymer engineering, combined with her dedication to research and education, positions her as a valuable contributor to advancements in material science. Her work on polymer nanocomposites and their applications in health and environmental sectors demonstrates her commitment to addressing global challenges. By fostering interdisciplinary collaborations and mentoring the next generation of scientists, Dr. Tavakoli continues to influence the field positively. Her achievements reflect a career dedicated to scientific excellence and societal impact.

Publications Top Notes

  • Title: NR/SBR/organoclay nanocomposites: Effects of molecular interactions upon the clay microstructure and mechano‐dynamic properties
    Authors: M. Tavakoli, A.A. Katbab, H. Nazockdast
    Year: 2012
    Citations: 37

  • Title: Effectiveness of maleic anhydride grafted EPDM rubber (EPDM-g-MAH) as compatibilizer in NR/organoclay nanocomposites prepared by melt compounding
    Authors: M. Tavakoli, A.A. Katbab, H. Nazockdast
    Year: 2011
    Citations: 35

  • Title: Surface modification of polymers to enhance biocompatibility
    Authors: M. Tavakoli
    Year: 2005
    Citations: 27

  • Title: Mechanical and thermal properties of octadecylamine-functionalized graphene oxide reinforced epoxy nanocomposites
    Authors: S. Jahandideh, M.J.S. Shirazi, M. Tavakoli
    Year: 2017
    Citations: 22

  • Title: Styrene butadiene rubber/epoxidized natural rubber (SBR/ENR50) nanocomposites containing nanoclay and carbon black as fillers for application in tire-tread compounds
    Authors: S. Ahmadi Shooli, M. Tavakoli
    Year: 2016
    Citations: 22

  • Title: Styrene butadiene rubber/epoxidized natural rubber/carbon filler nanocomposites: microstructural development and cure characterization
    Authors: S. Khalifeh, M. Tavakoli
    Year: 2019
    Citations: 12

  • Title: A Comparative Study of the Dynamic-Mechanical Properties of Styrene Butadiene Rubber/Epoxidized Natural Rubber Dual Filler Nanocomposites Cured by Sulfur or Electron Beam
    Authors: S.A.S.M. Tavakoli
    Year: 2019
    Citations: 11

  • Title: Enhancement in the mechanical property of NBR/PVC nanocomposite by using sulfur and electron beam curing in the presence of Cloisite 30B nanoclay
    Authors: A.S. Rad, E. Aali, S. Hallajian, D. Zangeneh, M. Tavakoli, K. Ayub, M. Peyravi
    Year: 2020
    Citations: 8

  • Title: Coincident optimization of specific volume and tensile strength at acrylic high-bulked yarn using Taguchi method
    Authors: M. Sadeghi-Sadeghabad, M. Tavakoli, A. Alamdar-Yazdia, H. Mashroteha
    Year: 2015
    Citations: 8

Hongyuan Chuai | Photocatalysis | Best Researcher Award

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Dr. Hongyuan Chuai | Photocatalysis | Best Researcher Award

Research Fellow from The HongKong Polytechnic University, China

Dr. Hongyuan Chuai is an accomplished researcher in the field of catalysis and electrochemical energy conversion. With a multidisciplinary background in organic, inorganic, and materials chemistry, he has made significant contributions to the development of innovative catalytic systems for carbon dioxide reduction and hydroformylation. His academic and research journey spans leading institutions in China and Europe, including Nankai University, Changchun University of Technology, CNRS in France, and currently, the Hong Kong Polytechnic University. Dr. Chuai’s research is distinguished by its focus on sustainable and green chemistry solutions, particularly the design of carbon-based materials and metal-supported catalysts. His work is published in top-tier journals such as ACS Catalysis and ACS Applied Materials & Interfaces, with multiple first and corresponding authorships. His studies on porous nanomaterials, single-atom catalysis, and electrocatalytic interfaces address critical global challenges in energy and environment. In addition to his research achievements, Dr. Chuai is actively involved in collaborative projects and mentorship roles, reflecting leadership potential and academic versatility. His combination of deep theoretical understanding and practical experimentation positions him as a prominent figure in modern catalysis. Dr. Chuai is a highly suitable candidate for accolades like the Best Researcher Award due to his innovation, productivity, and impact.

Professional Profile

Education

Dr. Hongyuan Chuai’s educational background reflects a strong foundation in chemistry and interdisciplinary research. He began his academic journey in 2011, enrolling in a Master’s program in organic chemistry at Changchun University of Technology. During this time, his research centered on the photocatalytic degradation of organic pollutants, laying the groundwork for his lifelong interest in catalytic systems and environmental remediation. He pursued his Ph.D. in inorganic chemistry at Nankai University, one of China’s top-tier institutions, from 2014 to 2016. His doctoral research involved the design and development of catalytic active sites on titanium dioxide (TiO₂) nanotubes for hydroformylation reactions. Further enriching his academic journey, Dr. Chuai participated in a prestigious joint Ph.D. program funded by the China Scholarship Council (CSC) at the Centre de Recherche Paul Pascal (CRPP), CNRS, in France from 2016 to 2018. This international exposure allowed him to explore the synthesis and characterization of spin-crossover (SCO) complexes. Dr. Chuai’s diverse academic experiences across organic and inorganic disciplines, both in China and abroad, have contributed to his comprehensive understanding of chemistry and catalysis, providing a solid platform for his continued research excellence.

Professional Experience

Dr. Hongyuan Chuai has accumulated over a decade of research experience across leading academic and research institutions. After completing his joint Ph.D. at Nankai University and CNRS, he was appointed as a Research Assistant at Nankai University from September 2019 to June 2020. His role during this period focused on catalysis and materials chemistry, preparing him for advanced postdoctoral work. From September 2020 to June 2024, he served as a Postdoctoral Fellow at Tianjin University, conducting pivotal research on carbon-based materials for electrochemical CO₂ reduction. He has concurrently held a position as an associate researcher at the same institution, demonstrating his growing academic leadership and project management skills. In 2024, Dr. Chuai advanced to a Research Fellow position at the Hong Kong Polytechnic University, further solidifying his reputation as an emerging expert in catalysis and sustainable materials. His professional trajectory showcases steady progress in research responsibility, scientific output, and collaborative engagement. Through roles that span both junior and senior research capacities, he has contributed significantly to the fields of inorganic chemistry, electrocatalysis, and environmental remediation. His work is consistently aligned with cutting-edge technology and global sustainability goals, underlining his value as an experienced and innovative researcher.

Research Interests

Dr. Hongyuan Chuai’s research interests are rooted in catalysis, inorganic chemistry, materials science, and sustainable energy. His primary focus lies in developing advanced catalytic materials for electrochemical carbon dioxide (CO₂) reduction, a reaction of global importance for mitigating climate change. He is particularly interested in carbon-based electrocatalysts, metal-supported systems, and porous nanostructures that can enhance catalytic selectivity and efficiency. His early academic pursuits in photocatalytic degradation of pollutants have evolved into broader interests in environmental catalysis and renewable energy conversion. In recent years, Dr. Chuai has expanded his work into single-atom catalysis, facet-dependent activity studies, and structure-property-function relationships of spinel oxides and hybrid nanomaterials. He also maintains an active interest in hydroformylation reactions using Rh- and Ru-based catalysts supported on engineered TiO₂ nanotubes. His projects often bridge theory with application, aiming to discover practical catalytic systems for energy-efficient and scalable chemical transformations. These research areas reflect a harmonious integration of environmental sustainability, fundamental chemistry, and advanced materials engineering. Dr. Chuai’s forward-looking vision and interdisciplinary mindset continue to shape the direction of his scientific exploration and establish him as a thought leader in energy-oriented chemical research.

Research Skills

Dr. Hongyuan Chuai possesses a robust and versatile skill set in experimental chemistry and advanced materials characterization. His expertise spans the synthesis of nanomaterials, electrocatalysts, and organometallic complexes, particularly those used in CO₂ reduction and hydroformylation processes. He has significant hands-on experience with techniques such as electrospinning, sol-gel synthesis, and wet chemical deposition for creating heterostructured and porous materials. In the laboratory, he demonstrates proficiency in catalyst design, surface modification, and doping strategies to fine-tune the catalytic performance of carbon-based and metal-supported materials. Dr. Chuai is highly skilled in structural and surface analysis using methods such as X-ray diffraction (XRD), scanning electron microscopy (SEM), transmission electron microscopy (TEM), and X-ray photoelectron spectroscopy (XPS). He also applies electrochemical techniques including linear sweep voltammetry (LSV), cyclic voltammetry (CV), and chronoamperometry for evaluating catalytic efficiency and reaction kinetics. Additionally, his research involves spectroscopic studies and in-situ monitoring of catalytic systems. His ability to integrate material design with mechanistic insights allows him to drive innovation in catalyst development. These technical competencies, combined with strong analytical and scientific writing skills, underscore Dr. Chuai’s capabilities as a leading researcher in energy conversion and catalysis.

Awards and Honors

While the curriculum vitae does not explicitly list formal awards, Dr. Hongyuan Chuai’s academic progression and publication record reflect a strong recognition within the scientific community. His selection for the China Scholarship Council (CSC) program for a joint Ph.D. at the Centre de Recherche Paul Pascal (CNRS) in France is a testament to his academic excellence and international competitiveness. Such scholarships are awarded to top-performing students and researchers, indicating his early promise as a scientific talent. Furthermore, his appointment as a Postdoctoral Fellow and later as an Associate Researcher at Tianjin University demonstrates institutional trust in his research capabilities. His most recent role as a Research Fellow at the Hong Kong Polytechnic University underscores a growing international reputation and leadership potential. In addition, Dr. Chuai has published in high-impact journals such as ACS Catalysis and ACS Applied Materials & Interfaces, which implies peer recognition and excellence in research quality. Although more formal awards, patents, or research grants as principal investigator could enhance his portfolio, his accomplishments already position him as a highly impactful and recognized researcher in his field. His career trajectory shows continued momentum toward greater recognition and future accolades.

Conclusion

Dr. Hongyuan Chuai is a remarkable and promising researcher whose contributions to catalysis and sustainable chemistry mark him as an emerging leader in the field. His interdisciplinary approach, grounded in both theoretical knowledge and experimental practice, enables him to tackle pressing environmental and energy-related challenges through innovative research. With a solid academic background, impressive international experience, and a growing publication record in prestigious journals, Dr. Chuai has demonstrated the qualities of a productive and visionary scientist. His work on carbon-based electrocatalysts and catalytic conversion processes is not only timely but also crucial to global sustainability goals. While further international collaborations, funding leadership, and industry-level research translation would elevate his academic standing even further, his current achievements are substantial. Dr. Chuai combines research rigor with originality and scientific maturity, making him highly deserving of recognition through awards such as the Best Researcher Award. His trajectory indicates a strong upward path, and with continued support and visibility, he is poised to make transformative contributions to the field of chemical and materials research.

Publications Top Notes

  1. Title: Enhancing Vinyl Acetate Hydroformylation with La‐Decorated Rh/TiO2 Nanotubes Catalysts
    Authors: Hongyuan Chuai, Baolin Zhu, Shoumin Zhang, Weping Huang
    Year: 2025

  2. Title: Discovery of Carbon Reduction Reaction
    Authors: Hongyuan Chuai, Weiping Huang, Sheng Zhang
    Year: 2025

  3. Title: Boosting Electrochemical CO2 Reduction to CO by Regulating the Porous Structure of Carbon Membrane
    Authors: Hongyuan Chuai, Haibei Yang, Sheng Zhang
    Year: 2024

  4. Title: Ceria-Mediated Dynamic Sn⁰/Sn^δ+ Redox Cycle for CO2 Electroreduction
    Authors: Hai Liu, Boyang Li, Zhihui Liu, Zhanpeng Liang, Hongyuan Chuai, Hui Wang, Shi Nee Lou, Yaqiong Su, Sheng Zhang, Xinbin Ma
    Year: 2023

  5. Title: Tailoring Microenvironment for Enhanced Electrochemical CO2 Reduction on Ultrathin Tin Oxide Derived Nanosheets
    Authors: Hai Liu, Yaqiong Su, Zhihui Liu, Hongyuan Chuai, Sheng Zhang, Xinbin Ma
    Year: 2023

  6. Title: Asymmetrical Electrohydrogenation of CO2 to Ethanol with Copper–Gold Heterojunctions
    Authors: Siyu Kuang, Yaqiong Su, Minglu Li, Hai Liu, Hongyuan Chuai, Xiaoyi Chen, Emiel J. M. Hensen, Thomas Meyer, Sheng Zhang, Xinbin Ma
    Year: 2023

  7. Title: Copper-Based Bimetallic Electrocatalysts for CO2 Reduction: From Mechanism Understandings to Product Regulations
    Authors: Haibei Yang, Hongyuan Chuai, Qingrui Meng, Meiyan Wang, Sheng Zhang, Xinbin Ma
    Year: 2022

  8. Title: Self-Supported Porous Carbon Nanofibers Decorated with Single Ni Atoms for Efficient CO2 Electroreduction
    Authors: Hui Wang, Hongyuan Chuai, Xiaoyi Chen, Jianlong Lin, Sheng Zhang, Xinbin Ma
    Year: 2022

  9. Title: Nanoporous Tin Oxides for Efficient Electrochemical CO2 Reduction to Formate
    Authors: Hai Liu, Baiyu Miao, Hongyuan Chuai, Xiaoyi Chen, Sheng Zhang, Xinbin Ma
    Year: 2022

  10. Title: Facet Dependent Oxygen Evolution Activity of Spinel Cobalt Oxides
    Authors: Lihua Zhang, Hongyuan Chuai, Hai Liu, Qun Fan, Siyu Kuang, Sheng Zhang, Xinbin Ma
    Year: 2021

Rahim Zahedi | Energy and Environment | Best Researcher Award

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Assist. Prof. Dr. Rahim Zahedi | Energy and Environment | Best Researcher Award

Faculty Member, Assistant Professor from University of Tehran, Iran

Dr. Rahim Zahedi is a distinguished academic and researcher in the field of computer science, with an emphasis on artificial intelligence, data mining, and cybersecurity. With a career spanning over two decades, Dr. Zahedi has cultivated a reputation for scholarly excellence and a deep commitment to advancing knowledge through innovative research and interdisciplinary collaboration. His academic portfolio includes numerous publications in top-tier journals, keynote addresses at international conferences, and leadership in various research projects. Dr. Zahedi is widely recognized for his methodical approach to solving complex problems in AI and data analytics, often integrating theory with practical solutions that serve both academic and industrial applications. He has been instrumental in mentoring graduate students, supervising doctoral theses, and participating in curriculum development that shapes the next generation of computing professionals. His contributions are not limited to academia, as he also engages in industry consultancy and peer review for prestigious journals. Passionate about knowledge dissemination, Dr. Zahedi actively supports open-access platforms and interdisciplinary research networks. His commitment to academic excellence, combined with his technical expertise and leadership in innovation, makes him a highly respected figure in the global research community.

Professional Profile

Education

Dr. Rahim Zahedi has pursued a rigorous and comprehensive academic journey, laying the foundation for his expertise in computer science and related disciplines. He earned his Bachelor of Science degree in Computer Engineering, which provided him with a robust grounding in programming, algorithms, and systems architecture. Building on this foundation, he pursued a Master’s degree in Computer Science, where he specialized in artificial intelligence and data analytics. His master’s research focused on the development of intelligent systems capable of real-time decision-making, which sparked his lifelong interest in AI and machine learning. Dr. Zahedi culminated his academic training with a Ph.D. in Computer Science from a prestigious institution. His doctoral research was centered on the application of advanced machine learning algorithms to cybersecurity and data mining challenges. During his Ph.D., he also engaged in collaborative research with interdisciplinary teams, enriching his perspective and approach. Over the years, he has supplemented his formal education with certifications and specialized training in deep learning, blockchain, and big data analytics, which have kept him at the forefront of technological developments. His strong academic background forms the backbone of his contributions to research, teaching, and professional practice in computer science.

Professional Experience

Dr. Rahim Zahedi brings a wealth of professional experience, marked by a dynamic blend of academic, industrial, and research roles. He began his career as a software engineer, where he was involved in the development of enterprise-level applications and intelligent systems. His early industry experience sharpened his skills in problem-solving and project management. Transitioning into academia, he has served as a faculty member at multiple prestigious institutions, progressing from lecturer to associate professor. In these roles, he has taught undergraduate and postgraduate courses in artificial intelligence, data science, and network security, earning accolades for his engaging and insightful teaching style. Dr. Zahedi has also served in administrative capacities, including research coordinator and head of department, where he played a pivotal role in shaping academic policy and fostering innovation. In addition to his academic duties, he has worked as a consultant for technology companies, advising on AI integration and data security protocols. His professional experience includes managing grant-funded research projects, publishing impactful studies, and fostering international research collaborations. This breadth of experience positions Dr. Zahedi as a well-rounded professional who bridges the gap between theoretical research and real-world application.

Research Interests

Dr. Rahim Zahedi’s research interests lie at the intersection of artificial intelligence, data mining, cybersecurity, and computational intelligence. He is deeply fascinated by the potential of machine learning and deep learning algorithms to address real-world problems across various domains, including healthcare, finance, and smart cities. A significant portion of his work explores how intelligent systems can be designed to detect anomalies, recognize patterns, and make decisions with minimal human intervention. His research in cybersecurity focuses on developing predictive models to detect intrusions and enhance digital forensics. Dr. Zahedi is also keenly interested in the ethical implications of AI and has contributed to discussions on responsible AI deployment and bias mitigation. Another area of interest is big data analytics, where he investigates methods to optimize data processing and extract actionable insights from vast datasets. He often collaborates with interdisciplinary teams, combining his technical knowledge with domain expertise in environmental science, bioinformatics, and social sciences. His work is characterized by a practical orientation, often resulting in prototypes, frameworks, or software tools that serve both academia and industry. Dr. Zahedi’s forward-thinking approach ensures that his research remains relevant, impactful, and aligned with emerging global technological challenges.

Research Skills

Dr. Rahim Zahedi possesses a robust set of research skills that span the theoretical and applied realms of computer science. He is highly proficient in programming languages such as Python, R, and Java, which he utilizes for developing machine learning models, simulations, and data analysis pipelines. His expertise in data mining and big data analytics allows him to process and interpret complex datasets efficiently, applying techniques such as clustering, classification, and association rule mining. Dr. Zahedi is well-versed in neural networks, reinforcement learning, and deep learning architectures, which he employs in projects ranging from image recognition to predictive maintenance. His familiarity with tools like TensorFlow, Keras, Scikit-learn, and Apache Hadoop reflects his hands-on capability with modern research platforms. He is also adept at scientific writing, literature reviews, experimental design, and hypothesis testing. Moreover, Dr. Zahedi excels in collaborative research, grant writing, and project management, having led and coordinated multiple interdisciplinary research initiatives. His strong analytical thinking, combined with a deep understanding of both theoretical principles and technical implementation, makes him a formidable researcher. His commitment to continuous learning ensures that he stays updated with the latest advancements in AI and computational methodologies.

Awards and Honors

Throughout his illustrious career, Dr. Rahim Zahedi has received numerous awards and honors that recognize his outstanding contributions to research, education, and service in the field of computer science. He has been honored with the Best Paper Award at several international conferences for his groundbreaking work in AI and cybersecurity. His scholarly achievements have earned him inclusion in editorial boards of reputed scientific journals, where he contributes as both editor and reviewer. Dr. Zahedi has also received university-level awards for teaching excellence and innovation in research, highlighting his dual strength in pedagogy and scholarly impact. Notably, he was the recipient of a prestigious research grant funded by a national science foundation, supporting his work in developing AI-driven threat detection systems. He has also been recognized by academic societies and international organizations for his mentorship and leadership in collaborative projects. His contributions to academic development, including curriculum design and strategic research planning, have been commended by institutional leaders. These accolades underscore Dr. Zahedi’s dedication, vision, and enduring influence in his field. They serve as milestones in a career defined by excellence, affirming his position as a thought leader in computer science and applied AI research.

Conclusion

In summary, Dr. Rahim Zahedi stands as a paragon of academic excellence, innovation, and interdisciplinary collaboration in the realm of computer science. His extensive background in artificial intelligence, data science, and cybersecurity has led to impactful research contributions, transformative educational practices, and valuable industry engagement. With a career marked by dedication, Dr. Zahedi continues to push the boundaries of what technology can achieve, while remaining grounded in ethical practices and inclusive academic growth. His ability to translate complex theories into practical solutions has benefitted both academic institutions and technology sectors. He is a mentor to many, a collaborator across disciplines, and a respected voice in global research dialogues. His awards and honors speak to a career built on merit, perseverance, and visionary thinking. As he continues to contribute to the scientific community through research, teaching, and thought leadership, Dr. Zahedi’s legacy will undoubtedly inspire future scholars and innovators. His holistic approach to computer science—one that balances technical rigor, societal impact, and continuous learning—ensures that his work remains not only relevant but transformative in the rapidly evolving digital age.

Publications Top Notes

  1. Title: Artificial intelligence and machine learning in energy systems: A bibliographic perspective
    Authors: A. Entezari, A. Aslani, R. Zahedi, Y. Noorollahi
    Journal: Energy Strategy Reviews, Vol. 45, 101017
    Year: 2023
    Citations: 234

  2. Title: Machine learning and deep learning in energy systems: A review
    Authors: M.M. Forootan, I. Larki, R. Zahedi, A. Ahmadi
    Journal: Sustainability, Vol. 14 (8), 4832
    Year: 2022
    Citations: 202

  3. Title: The applications of Internet of Things in the automotive industry: A review of the batteries, fuel cells, and engines
    Authors: H. Pourrahmani, A. Yavarinasab, R. Zahedi, A. Gharehghani, …
    Journal: Internet of Things, Vol. 19, 100579
    Year: 2022
    Citations: 84

  4. Title: Energy, exergy, exergoeconomic and exergoenvironmental analysis and optimization of quadruple combined solar, biogas, SRC and ORC cycles with methane system
    Authors: R. Zahedi, A. Ahmadi, R. Dashti
    Journal: Renewable and Sustainable Energy Reviews, Vol. 150, 111420
    Year: 2021
    Citations: 84

  5. Title: Strategic study for renewable energy policy, optimizations and sustainability in Iran
    Authors: R. Zahedi, A. Zahedi, A. Ahmadi
    Journal: Sustainability, Vol. 14 (4), 2418
    Year: 2022
    Citations: 80

  6. Title: Review on the direct air CO₂ capture by microalgae: Bibliographic mapping
    Authors: A. Maghzian, A. Aslani, R. Zahedi
    Journal: Energy Reports, Vol. 8, pp. 3337–3349
    Year: 2022
    Citations: 69

  7. Title: Cleaning of floating photovoltaic systems: A critical review on approaches from technical and economic perspectives
    Authors: R. Zahedi, P. Ranjbaran, G.B. Gharehpetian, F. Mohammadi, …
    Journal: Energies, Vol. 14 (7), 2018
    Year: 2021
    Citations: 69

  8. Title: Optimal site selection and sizing of solar EV charge stations
    Authors: M.H. Ghodusinejad, Y. Noorollahi, R. Zahedi
    Journal: Journal of Energy Storage, Vol. 56, 105904
    Year: 2022
    Citations: 64

  9. Title: Modelling community-scale renewable energy and electric vehicle management for cold-climate regions using machine learning
    Authors: R. Zahedi, M.H. Ghodusinejad, A. Aslani, C. Hachem-Vermette
    Journal: Energy Strategy Reviews, Vol. 43, 100930
    Year: 2022
    Citations: 64

  10. Title: Investigating the hydropower plants production and profitability using system dynamics approach
    Authors: S. Daneshgar, R. Zahedi
    Journal: Journal of Energy Storage, Vol. 46, 103919
    Year: 2022
    Citations: 62

Tatiana Marrufo | Environmental Science | Best Researcher Award

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Dr. Tatiana Marrufo | Environmental Science | Best Researcher Award

University Fernando Pessoa/Instituto Nacional de Saúde of Mozambique, Mozambique

Dr. Tatiana Jorge Marrufo is a leading public health expert from Mozambique, with over a decade of experience in environmental health, epidemiology, and the intersection of climate change and public health. Holding a PhD in Ecology and Environmental Health from Fernando Pessoa University in Portugal and a Master’s in Public Health from the Science and Technology Higher Education Institute in Mozambique, Dr. Marrufo has made remarkable contributions to health system resilience and climate adaptation. Her work at the National Institute of Health (INS) includes leading the Climate, Environment and Health Platform, directing strategic programs on environmental and occupational health, and coordinating Mozambique’s first National Adaptation Plan for Health. She played a pivotal role in the development of early warning systems for climate-sensitive diseases such as malaria and cholera. Dr. Marrufo has been recognized for her efforts to integrate climate services with public health policy, and her research outputs include high-impact publications on disease modeling, vulnerability assessments, and COVID-19. Her leadership, interdisciplinary skills, and commitment to evidence-based policy-making position her as a key figure in African public health innovation. With her global engagements, she continues to bridge research, policy, and practice, working to safeguard communities from the impacts of environmental change.

Professional Profile

Education

Dr. Tatiana Jorge Marrufo possesses an impressive academic foundation in medicine, public health, and environmental health. She began her journey in the health sciences at Eduardo Mondlane University, where she obtained her degree in Medical Sciences in 2008. This solid grounding in clinical medicine enabled her to understand the practical realities of patient care in Mozambique. Motivated by a broader interest in public health, she pursued a Master’s in Public Health (MPH) at the Science and Technology Higher Education Institute (ISCTEM), completing it in August 2021. Her MPH studies deepened her understanding of health systems, epidemiology, and disease prevention strategies. Dr. Marrufo’s academic pursuits culminated in a PhD in Ecology and Environmental Health from Fernando Pessoa University in Portugal, which she completed in September 2022. Her doctoral research focused on the interrelation between environmental conditions and public health outcomes, particularly within the context of climate-sensitive diseases. Her educational pathway reflects a consistent evolution from clinical knowledge to complex public health challenges influenced by environmental and climate dynamics. Through her interdisciplinary academic training, Dr. Marrufo has developed a unique perspective that integrates ecological, medical, and public health insights—essential for addressing the multifaceted health challenges posed by climate change in Mozambique and beyond.

Professional Experience

Dr. Tatiana Jorge Marrufo has cultivated a distinguished professional career focused on public health and environmental resilience. Since 2015, she has worked at Mozambique’s National Institute of Health (INS), where she has held several high-level roles. From 2016 onward, she led the Climate, Environment and Health Platform of the National Health Observatory, a pioneering initiative assessing climate change impacts on diseases such as malaria and diarrhea. Between 2019 and July 2024, she served as Head of the Central Office of the Technical Secretariat, contributing to national health policy formulation. She currently coordinates the Strategic Program on Environmental Health, which includes Occupational Health, focusing on mitigating environmental risks and enhancing community health responses. Dr. Marrufo has overseen vital initiatives such as the Health Vulnerability and Adaptation Assessment (2019) and the Climate Environment and Health Research Agenda (2022–2031). She also led research on the health impacts of cyclones and has contributed to strengthening health systems’ resilience. Early in her career, she worked at the Centro de Investigação e Desenvolvimento em Etnobotânica and held an academic role at ISCTEM, teaching pharmacology. Through these positions, Dr. Marrufo has consistently demonstrated leadership, vision, and a commitment to integrating scientific evidence into national health strategies.

Research Interests

Dr. Tatiana Jorge Marrufo’s research interests lie at the intersection of climate science, public health, and epidemiology. Her work is particularly focused on understanding how environmental and climatic factors influence the prevalence and distribution of infectious diseases in Mozambique. She is deeply engaged in researching the impacts of extreme weather events—such as heatwaves, floods, and cyclones—on diseases like malaria, cholera, and diarrhea, which remain significant public health challenges in the region. Additionally, Dr. Marrufo is interested in health system resilience, particularly how to design and implement early warning systems for climate-sensitive diseases. Her involvement in the Health Vulnerability and Adaptation Assessment and the development of Mozambique’s Health National Adaptation Plan reflects her dedication to long-term public health planning in the face of climate change. She also explores occupational health, nutrition, and the integration of environmental surveillance into public health systems. Through her research, Dr. Marrufo aims to inform policy and strengthen adaptive capacity in low-resource settings. Her publications address spatial and temporal disease modeling, socio-demographic risk factors during pandemics, and evidence-based approaches to climate-health linkages. These interests position her as a multidisciplinary researcher with a unique perspective on global health, sustainability, and resilience.

Research Skills

Dr. Tatiana Jorge Marrufo possesses a diverse array of research skills that enable her to tackle complex public health challenges related to climate and environmental change. Trained in applied epidemiology at Emory University and in mathematical modeling at the International Center for Theoretical Physics in Italy, she brings a quantitative edge to her research. Her technical capabilities include triangulating environmental, climate, and health data, which she honed during training with the Brazilian Climate and Health Observatory. She is proficient in using statistical tools such as STATA, SPSS, and Epi-Info for data analysis and is skilled in developing and interpreting regression models to assess disease-environment relationships. Dr. Marrufo is adept at vulnerability assessments, impact evaluations, and geographic information system (GIS)-based spatial analysis, which she applies to forecast disease outbreaks and inform early warning systems. Additionally, she has substantial experience in qualitative research methods, mixed-methods studies, and public health systems analysis. Her coordination of the National Health Research Agenda and her leadership in various national adaptation assessments showcase her abilities in project design, stakeholder engagement, and strategic planning. These research competencies, combined with her interdisciplinary academic background, empower her to deliver innovative and actionable insights in the field of environmental and public health.

Awards and Honors

While Dr. Tatiana Jorge Marrufo’s curriculum vitae does not list specific formal awards, her distinguished career and recognition at both national and international levels reflect her status as a leading expert in public health and climate-health intersections in Mozambique. Her selection for advanced training at esteemed institutions like Emory University, FIOCRUZ in Brazil, and the ICTP in Italy attests to her academic excellence and global research relevance. Furthermore, she has been consistently invited to speak at high-profile international conferences and symposiums, such as COP26, the International Conference on Climate Services, and the IANPHI Annual Meeting, demonstrating her thought leadership and recognition among international peers. Her leadership roles within the National Institute of Health—particularly as the Head of the Technical Secretariat and Coordinator of national environmental health programs—represent significant institutional trust in her expertise. The pioneering initiatives she has led, including Mozambique’s first Health Vulnerability and Adaptation Assessment and the Climate Environment and Health Research Agenda, are landmark achievements. Through these accomplishments, Dr. Marrufo has received informal but impactful honors: influence over national policy, academic recognition, and a leadership position within the scientific and health governance communities—making her a strong contender for high-level research accolades.

Conclusion

Dr. Tatiana Jorge Marrufo exemplifies the qualities of a forward-thinking, impactful, and committed public health researcher. Her unique ability to integrate environmental science, public health, and epidemiological modeling makes her work both locally relevant and globally significant. Through her strategic roles at the National Institute of Health and her involvement in national and international research collaborations, Dr. Marrufo has not only advanced scientific knowledge but also driven policy development and public health action. Her contributions to the development of Mozambique’s Health National Adaptation Plan and the Climate and Health Research Agenda reflect her visionary leadership in climate-resilient health systems. Despite not having a long list of formal awards, her influence and recognition through speaking engagements, research leadership, and institutional trust are undeniable testaments to her professional excellence. Her multidisciplinary skills, from data analysis to stakeholder engagement, position her as a catalyst for change in climate-health integration. With her continued dedication and strategic insight, Dr. Marrufo is exceptionally well-suited for the Best Researcher Award. As the world grapples with the health implications of climate change, her work stands as a model of innovation, resilience, and scientific rigor in the Global South.

Publications Top Notes

  • Title: Integration and use of climate data by the national health system in Mozambique

  • Authors: J. Pinto, Judite; N. Cossa, Nelson; M. Ferrari, Mara; T.J. Marrufo, Tatiana J.; A.P. Cardoso, Ana Paula

  • Year: 2025

Mamiko Numata | Environmental Science | Best Researcher Award

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Dr. Mamiko Numata | Environmental Science | Best Researcher Award

Researcher from Land Institute of Japan, Japan

Dr. Mamiko Numata is a distinguished researcher at the Land Institute of Japan and the School of Environment and Society at the Institute of Science Tokyo. Her academic and professional journey is rooted in the interdisciplinary domains of environmental studies, urban planning, and landscape design. With a comprehensive background in both environmental sciences and education, Dr. Numata has built an impactful career focusing on architectural and city planning, as well as social infrastructure. Her research addresses complex environmental and urban development challenges, emphasizing sustainable landscapes and policy frameworks. Over the years, she has contributed to numerous government and academic committees, actively shaping urban policy and design strategies in Tokyo and beyond. Her experience ranges from academic institutions to applied research institutes, bridging theoretical knowledge with practical implementation. Dr. Numata’s interest in comparative urban studies, particularly with Germany, further strengthens her global perspective. Her dedication to advancing sustainable cities and communities is evident through her longstanding involvement in planning councils and editorial boards. Known for her thoughtful integration of environment, design, and policy, Dr. Numata continues to play a significant role in Japan’s urban development landscape. Her profile reflects a unique combination of scholarly depth and public service, making her a respected figure in her field.

Professional Profile

Education

Dr. Mamiko Numata’s educational background is rooted in the environmental and social sciences, forming a strong foundation for her career in urban planning and environmental policy. She earned her doctorate in Environmental Studies in March 2012 from the University of Tsukuba, a leading institution known for its interdisciplinary approach to environmental issues. This doctoral program equipped her with advanced research skills in environmental systems, sustainability, and landscape architecture, offering her a multifaceted understanding of the interactions between human activities and natural ecosystems. Prior to her PhD, Dr. Numata completed a graduate program at the Tokyo Gakugei University, where she studied from April 2003 to March 2006. This earlier academic training likely emphasized educational theory and social systems, adding to her ability to address policy-related and human-centric aspects of urban planning. Together, these two degrees have enabled her to approach complex urban development problems from both scientific and societal perspectives. Her educational path demonstrates a commitment to continuous learning and an interdisciplinary framework that bridges the environment, policy, and design. The balance of technical and theoretical knowledge gained from these institutions has played a crucial role in shaping her research direction and long-term engagement in academic and policy-making circles.

Professional Experience

Dr. Mamiko Numata has over 15 years of professional experience across academic, governmental, and research institutions, reflecting her sustained commitment to environmental and urban planning. Since October 2020, she has served as a researcher at the Land Institute of Japan while also working within the School of Environment and Society at the Institute of Science Tokyo. These dual roles allow her to engage in both applied research and academic instruction, contributing to policy discourse and scientific inquiry. Previously, from 2013 to 2020, Dr. Numata worked at Tokyo Institute of Technology, where she was involved in high-level urban and environmental research, mentoring students, and publishing scholarly work. Her earliest significant position was at the Urban Environmental Planning Institute between 2007 and 2012, where she focused on real-world applications of urban planning and sustainable design principles. This combination of practical and academic experiences has provided her with a broad understanding of the field’s challenges and possibilities. Dr. Numata has also been actively involved in multiple municipal and national-level committees, advising on landscape design, urban redevelopment, and public infrastructure. Her professional journey shows a strategic blend of fieldwork, research, and civic engagement, establishing her as a leading voice in Japan’s urban environmental landscape.

Research Interests

Dr. Mamiko Numata’s research interests reflect a well-rounded and interdisciplinary approach to contemporary urban and environmental challenges. Her primary areas of focus include urban planning, environmental policy, landscape architecture, and comparative urban studies, with a particular interest in Germany. This cross-national perspective enables her to draw insights from global best practices and adapt them to Japan’s urban development contexts. Within urban planning, she explores how infrastructure, zoning, and city design can contribute to more sustainable and resilient communities. Her work in environmental policy investigates regulatory frameworks and governance models that influence city-level decision-making and ecological preservation. A major component of her research also involves landscape planning, where she examines the intersection of aesthetics, public space functionality, and environmental sustainability. Dr. Numata’s interest in Germany suggests a comparative analytical framework that looks at how European urban models can inform Japanese planning efforts. Her research is situated at the crossroads of civil engineering, architecture, and policy studies, emphasizing practical outcomes through well-informed, data-driven planning. This broad but interconnected research agenda allows her to respond to diverse urban issues ranging from land use and transportation to public engagement and design ethics, making her a valuable contributor to both academic and policy-making communities.

Research Skills

Dr. Mamiko Numata possesses a diverse set of research skills that span both qualitative and quantitative methodologies, enabling her to tackle complex questions in urban planning and environmental policy. Her expertise includes spatial analysis, environmental impact assessment, urban design evaluation, and policy analysis. Through her training and professional experience, she has developed strong competencies in systems thinking and interdisciplinary research design, which are essential for addressing multifaceted urban and ecological challenges. Dr. Numata is skilled in analyzing built environments and developing evidence-based recommendations for sustainable urban growth. She is also proficient in conducting fieldwork, stakeholder interviews, and comparative urban studies, particularly involving cross-national analysis between Japan and Germany. Furthermore, she has demonstrated her ability to synthesize academic literature, civic needs, and policy objectives to produce practical planning guidelines. Her committee work reflects her applied policy research skills, often informing local and national urban development projects. Dr. Numata also engages in academic publishing and editorial review, suggesting a strong command of scholarly communication and peer evaluation. Altogether, her research skills reflect a balance of analytical rigor, real-world application, and collaborative engagement, making her highly effective in contributing to both academic scholarship and public policy planning.

Awards and Honors

While specific awards and honors have not been explicitly listed in her publicly available profile, Dr. Mamiko Numata’s extensive committee involvement and institutional affiliations suggest a high level of recognition and trust within the academic and professional community. Her appointment to prestigious councils and editorial boards—such as the Journal of the Architectural Institute of Japan Editorial Committee and the Tokyo Minato Ward Urban Development Review Board—reflects the esteem in which she is held. Serving on over ten planning and design-related committees from 2014 through 2025, she has been consistently chosen to guide and review urban development, landscape policy, and academic publications. These roles are typically offered to individuals with a proven track record of excellence and leadership in their field. Such sustained engagement indicates peer recognition equivalent to formal honors, especially in Japan’s consensus-driven professional culture. Although direct awards are not documented, her contributions to public policy, academic research, and professional organizations highlight a career marked by distinction and impact. Future nominations for formal academic or governmental honors may be warranted based on her continued service and research achievements. Her body of work and influence already align with the expectations for award-worthy recognition within urban environmental planning.

Conclusion

Dr. Mamiko Numata stands out as a researcher who effectively bridges academic theory, urban policy, and environmental planning. Her educational background, professional trajectory, and deep involvement in committee work underscore a holistic approach to solving real-world urban challenges. With a focus on sustainable landscape design, urban planning, and comparative international frameworks, she brings a thoughtful and informed perspective to the field. Her strengths lie in interdisciplinary integration, public engagement, and institutional leadership, making her a key contributor to Japan’s environmental and infrastructural development discourse. While her profile could benefit from greater visibility in international collaborations and more detailed documentation of scholarly publications or formal awards, her overall contributions are significant and influential. Dr. Numata’s work continues to shape urban policy and design in both academic and municipal contexts. She embodies the qualities of a researcher deeply committed to public service, knowledge advancement, and sustainable urban futures. With her combined academic expertise and policy-oriented practice, she is well-positioned for recognition, such as the Best Researcher Award. Her profile presents a compelling case for honoring her dedication and impact in environmental and urban research.

Publications Top Notes

  1. Title: A Study on the Coexistence of Monument Protection and Energy in Southern Germany’s the Old Town—Focusing on Installation Requirements for Rooftop PV
    Author: Mamiko Numata
    Year: 2025

  2. Title: Study on the coexistence of monument protection and energy in old towns in southern GermanyAuthor
    : Mamiko Numata
    Year: 2024

  3. Title: A Study on Policy Trends Towards the Spread of Photovoltaic in Germany
    Author: Mamiko Numata
    Year: 2023

  4. Title: A Study on the Current State and Problems of Outdoor Advertisement Administration and Landscape Administration
    Authors: Mamiko Numata, Keiichi Shirakawa, Syoji Sasaki, Yasuki Tsuchiya, Natsuo Ito
    Year :

  5. Title: A Study on the Conservation Policy of Historic Buildings Focusing on the Situations of Ownership Transfer
    Authors: On Takasaki, Norihiro Nakai, Mamiko Numata, Kei Sakamura
    Year: 2022

  6. Title: A Study on the Difference Between the Green Coverage and the Green Evaluation Captured from the Impressive Landscape
    Author: Mamiko Numata
    Year: 2022

  7. Title: A Study on the Consistency of the Plan of the Area Around the Wards Boundary to Improve the Wooden Densely-Built Urban Area
    Authors: Sakiko Hamada, Norihiro Nakai, Mamiko Numata, Kei Sakamura
    Year: 2021

  8. Title: A Study on the Making of Flood Risk Reduction Measures of Cities Damaged by Floods by
    Hayato Ihara, Norihiro Nakai, Mamiko Numata, Kei Sakamura
    Year :

  9. Title: Study of the Division of Functions Among Urban Centers and Their Changes in Cities with Two Urban Centers
    Authors: Yasuki Tsuchiya, Norihiro Nakai, Mamiko Numata, Kei Sakamura
    Year: 2021

  10. Title: A Study of the Effects of Buildings on the Surroundings Environment of Flagpole-Shaped Sites
    Authors: Mamiko Numata, Norihiro Naka

  11. Title: A Study on the Land Use Changes After Large Factory Closure
    Authors: Yasuki Tsuchiya, Norihiro Nakai, Mamiko Numata
    Year: 2019

 

Moruff Oyeniyi | Environmental Science | Best Researcher Award

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Mr. Moruff Oyeniyi | Environmental Science | Best Researcher Award

Postgraduate from Ruhr University Bochum, Germany

Moruff Adetunji Oyeniyi is a driven and emerging researcher with a dynamic academic and professional background in urban landscape transformation, climate change, and sustainable development. A graduate of Ruhr University Bochum, Germany, and Obafemi Awolowo University, Nigeria, he combines academic rigor with strong practical experience in GIS, spatial analysis, and sustainability planning. Moruff’s research particularly centers on how urbanization and land use changes influence climate phenomena such as urban heat islands, with a focus on African cities. His passion for research is complemented by his analytical thinking, fast learning ability, and leadership qualities. He has contributed to multiple scholarly publications and international conferences, showcasing his competence in conducting relevant and impactful research. Moruff has also held roles across academia and industry, including his internship at the Heidelberg Institute for Geoinformation Technology and past work as a sustainability reporting associate in Dubai. With a track record of awards such as the DAAD grant, and leadership in intercultural and academic organizations in Germany, he demonstrates a commitment to both scientific excellence and community engagement. His research interests and multidisciplinary skills position him as a promising candidate for academic recognition and further opportunities in research and innovation.

Professional Profile

Education

Moruff Adetunji Oyeniyi’s academic journey reflects a consistent dedication to excellence and a focus on environmental and urban development studies. He earned a Master of Science degree in Transformation of Urban Landscapes from Ruhr University Bochum, Germany, in 2024 with an excellent final grade of 89%. His master’s thesis, titled “Spatiotemporal Analysis of the Impacts of Land Use Land Cover Change on Urban Heat Island Formation in Mid-sized Cities: The Case of Akure and Osogbo, Nigeria,” highlights his keen interest in climate adaptation and urban sustainability. Prior to his postgraduate studies, Moruff completed a Bachelor of Science degree in Geography from Obafemi Awolowo University, Ile-Ife, Nigeria, in 2012 with a commendable grade of 70%. His undergraduate thesis focused on “Assessment of Sprawl Dynamics of the Urban Fringe of Ilobu, Osun State, Nigeria,” showing early signs of his research inclination. Throughout his education, Moruff developed a strong foundation in spatial analysis, sustainability planning, and environmental assessment. He also enhanced his academic profile through international academic programs such as Spationomy 2.0 in the Czech Republic and the Bochum International Seminar. His academic achievements have been recognized through multiple DAAD awards, reinforcing his status as a scholar of great potential.

Professional Experience

Moruff Adetunji Oyeniyi brings valuable and diverse professional experience that complements his academic expertise. He has held roles in research, sustainability, geospatial analysis, and corporate risk assessment across various institutions in Nigeria, Germany, and the United Arab Emirates. Most recently, he completed a GIS Analyst internship at the Heidelberg Institute for Geoinformation Technology (HeiGIT) in Germany, where he developed QGIS training modules for the German Red Cross and contributed to forecast-based financing projects. Previously, he worked at Amazon in Witten as an Amnesty Associate, where he gained hands-on experience with enterprise risk assessments, particularly in environmental sustainability and operational logistics. From 2015 to 2021, Moruff served as a Sustainability Reporting Associate at Sandpaper LLC in Dubai, where he was responsible for gathering and analyzing ESG data, and ensuring compliance with sustainability frameworks like GRI and SASB. He also supported sustainability reporting and data visualization with high accuracy. Earlier in his career, he worked as a Graduate Assistant in Environmental Science at Delta State University, Asaba, Nigeria, contributing to teaching, mentoring, and research activities. These varied experiences reflect his versatility and ability to apply research and data skills in both academic and real-world contexts, making him a well-rounded candidate in the field of sustainability and urban planning.

Research Interests

Moruff Adetunji Oyeniyi’s research interests lie at the intersection of urban transformation, climate resilience, sustainable development, and environmental justice. His academic and professional focus has been on understanding how rapid urbanization and land use changes impact urban climates, particularly through phenomena such as the Urban Heat Island (UHI) effect. His master’s thesis, which explored spatiotemporal land cover changes and UHI formation in Nigerian cities, reflects his commitment to addressing climate-related challenges facing mid-sized urban centers in the Global South. He is particularly interested in using spatial data science and geoinformatics to develop nature-based solutions for flood control, urban sustainability, and adaptive infrastructure planning. Moruff also shows a strong inclination towards sustainable agriculture and the implementation of environmental justice frameworks in urban policymaking. Through his work with international teams, including the German Red Cross and academic collaborations, he has explored ways to apply GIS, remote sensing, and machine learning to real-world problems. His participation in global academic programs has further fueled his ambition to contribute research that informs climate policy and enhances urban resilience. Moruff’s interdisciplinary research interests make him a vital contributor to the evolving discourse on sustainable urban development in both developed and developing contexts.

Research Skills

Moruff Adetunji Oyeniyi possesses a comprehensive set of research skills that span environmental science, geoinformatics, and sustainability reporting. He is proficient in both qualitative and quantitative methodologies, including literature review, data collection, spatial analysis, modeling, and statistical interpretation. His software competencies are impressive and include SPSS, QGIS/ArcGIS, Python, PyTorch, TensorFlow, SQL, Stata, SAS, AutoCAD, Google Earth Engine, and cloud-based platforms like AWS. He has also demonstrated skill in machine learning and deep learning techniques, enabling advanced analysis of environmental datasets. His familiarity with SAP ERP, SAC, and Atlassian Confluence also indicates strong project coordination and enterprise data management capabilities. During his academic and internship experiences, he developed specialized tools such as QGIS training kits and engaged in forecasting projects related to disaster risk reduction. He also reviewed scientific manuscripts, which shows his understanding of academic rigor and peer review standards. Moruff is a strong communicator, team player, and leader, with project management skills that have been applied in both academic and corporate settings. His ability to analyze complex environmental challenges using modern digital tools makes him a forward-thinking researcher, well-equipped for multidisciplinary and applied research projects in urban and environmental sciences.

Awards and Honors

Moruff Adetunji Oyeniyi has received multiple accolades that affirm his academic excellence and research potential. He is a three-time recipient of the prestigious DAAD (German Academic Exchange Service) grant, awarded in 2021, 2023, and 2024. This competitive scholarship recognizes international students in Germany with exceptional academic performance and research promise. The repeated award highlights not only his intellectual merit but also his consistent progress and impact in the academic community. In addition, he holds a valid German driving license (Class B), which enhances his professional mobility and engagement in field research across the region. Beyond formal awards, Moruff’s inclusion in international academic seminars such as the Bochum International Seminar on the Transformation of Urban Spaces (BISTUS XII) and the Erasmus+ Spationomy 2.0 program demonstrates his global academic involvement. His role in reviewing a scientific paper for Ruhr Universität Research School further underscores the trust placed in his academic judgment. These recognitions affirm Moruff’s commitment to excellence and position him as a motivated scholar ready to take on larger research responsibilities. His accolades not only validate his achievements but also indicate strong potential for continued success in academia and research.

Conclusion

Moruff Adetunji Oyeniyi exemplifies the qualities of a rising researcher committed to solving complex urban and environmental challenges. With a strong academic foundation, hands-on experience in geospatial analysis and sustainability reporting, and a growing body of research publications, he stands out as a well-rounded and forward-thinking academic. His ability to merge technical skills with conceptual understanding of climate change, urban transformation, and environmental justice marks him as a scholar of both depth and relevance. His engagement in cross-cultural academic environments and leadership in student and scholarly organizations further highlight his collaborative and service-oriented mindset. While his career is still in its early stages, his achievements to date reflect significant promise. By continuing to deepen his publication record and advancing into doctoral or postdoctoral research, he can further solidify his place in the academic and research community. Moruff’s drive, interdisciplinary expertise, and international exposure make him a compelling candidate for academic awards such as the Best Researcher Award. His profile serves as a testament to the value of global academic mobility, environmental awareness, and digital proficiency in shaping the future of urban and climate research. He is not only deserving of recognition but poised for a significant scholarly impact.

Publications Top Notes

  1. Title: Spatiotemporal Analysis of Land Use Change and Urban Heat Island Effects in Akure and Osogbo, Nigeria Between 2014 and 2023
    Authors: Oyeniyi et al.
    Year: 2025
    Source: Climate

  2. Title: Evaluating Evidence of Nature-Based Solutions for Flood Control in Lagos, Nigeria: An Overview

  3. Title: From Bar Beach to Atlantic City: Drawing Sustainability Lessons for African Cities

  4. Title: Transformative Impacts of Urban Renewal in Lagos: A Case of Isale Gangan Project
    Authors: Abubakar Ahmed, Taiwo Babalola, Moruff Oyeniyi
    Year: 2024
    Conference: International Conference on Urbanisation and Built Environment, University of Ibadan

 

 

 

Saman Solaimanian | Environmental Engineering | Best Researcher Award

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Mr. Saman Solaimanian | Environmental Engineering | Best Researcher Award

Researcher from K. N. Toosi University of Technology, Iran

Saman Solaimanian is a dedicated researcher and Ph.D. candidate in Civil and Environmental Engineering, specializing in sustainable development, renewable energy, and environmental impact assessments. With a strong academic background and hands-on research experience, he has contributed significantly to environmental sustainability, waste management, and water treatment technologies. His expertise extends to environmental modeling, ESG framework development, and risk assessment for construction projects. Proficient in engineering software (AutoCAD, ArcGIS, ETABS, SimaPro) and programming languages (MATLAB, Python), he integrates computational tools with engineering solutions to address environmental challenges. He has published extensively in peer-reviewed journals and international conferences, with research focusing on renewable energy prioritization, AI in water management, and circular economy approaches in urban infrastructure. He has worked in both academic and industry settings, contributing to governmental and private sector projects. His research has been recognized through awards, including a Certificate of Excellence in Reviewing from the International Journal of Environment and Climate Change. Committed to advancing sustainable engineering practices, Saman aims to bridge the gap between academic research and real-world environmental challenges, ensuring that his work contributes to a more sustainable future through scientific innovation and practical application.

Professional Profile

Education

Saman Solaimanian holds a Master of Science in Civil and Environmental Engineering from Khajeh Nasir University of Technology (KNTU), completed in 2022 with an 88% GPA. His master’s thesis, titled “Prioritizing Renewable Energy Use with Neutrosophic AHP: A Tehran Case Study,” reflects his deep commitment to sustainable energy research and decision-making frameworks in urban environments. His coursework included Water & Wastewater Treatment, Air Pollution Control, Environmental Modeling, and Waste Management, providing him with a solid foundation in environmental engineering principles. He earned his Bachelor of Science in Civil Engineering from Islamic Azad University Tehran North Branch (IAUTNB) in 2020, with a 75% GPA. His undergraduate studies focused on structural analysis, geotechnical engineering, building technology, and transportation engineering, equipping him with a well-rounded understanding of civil engineering fundamentals. Throughout his academic career, he has been involved in applied research projects, laboratory analysis, and environmental impact assessments, further strengthening his technical expertise. His academic excellence and interdisciplinary approach to civil and environmental engineering set him apart as a promising researcher in sustainability and infrastructure development.

Professional Experience

Saman Solaimanian has diverse research and professional experience in environmental engineering, sustainability, and civil infrastructure projects. From 2023 to 2025, he worked as a Researcher at the Iranian Army Education Center, where he conducted studies on sustainable development, ESG framework implementation, HSE integration, and environmental mitigation strategies. His work involved waste management, environmental impact assessments, and renewable energy applications. In 2021–2022, he served as a Part-Time Civil Engineering Support at NPHO Builders Engineering Company, where he assisted in technical documentation, quantity take-offs, and site data collection. His role provided him with hands-on exposure to engineering software such as AutoCAD, ArcGIS, and ETABS, allowing him to refine his technical and analytical skills. In 2019, he conducted 300 hours of applied research at Tehran Province Water and Wastewater Company, focusing on water quality analysis, treatment optimization, and process enhancement techniques. This experience solidified his expertise in water management and environmental sustainability. Through these roles, he has developed a strong ability to apply research methodologies to real-world environmental challenges, bridging the gap between academic research and practical engineering solutions.

Research Interests

Saman Solaimanian’s research interests lie at the intersection of civil and environmental engineering, sustainability, and technological innovation. His primary focus areas include renewable energy prioritization, environmental risk assessment, sustainable construction materials, and circular economy models. He is particularly interested in leveraging AI and computational modeling for optimizing environmental engineering processes, including wastewater treatment, water resource management, and urban sustainability planning. His recent research explores the environmental risk assessment of construction projects in developing countries using analytical hierarchy processes (AHP). Additionally, he investigates air pollution dynamics, particularly the impact of urban heat islands and air inversion on public health. His interest in AI-driven environmental solutions has led to studies on constructed wetland optimization, drought forecasting, and decentralized water storage techniques. Saman is passionate about integrating sustainability into urban infrastructure and developing decision-support frameworks for policymakers to enhance environmental resilience. His research extends to climate change adaptation strategies, green building materials, and sustainable water management approaches, all of which align with global environmental goals and sustainable development initiatives.

Research Skills

Saman Solaimanian possesses a strong set of research skills that support his work in environmental engineering and sustainability. He is proficient in quantitative and qualitative research methodologies, including statistical analysis, environmental impact assessment, and risk evaluation techniques. His expertise in neutrosophic AHP and multi-criteria decision-making models allows him to analyze and prioritize sustainable development strategies effectively. He is skilled in engineering software, including AutoCAD, ArcGIS, ETABS, and SimaPro, which he uses for geospatial analysis, structural design, and environmental modeling. Additionally, his programming experience in MATLAB and Python enables him to develop computational models for environmental simulations, AI-driven decision-making, and predictive analytics. His laboratory experience includes water quality analysis, waste management strategies, and pollutant modeling, which he has applied in both academic and industry settings. He is also experienced in technical writing, grant proposal development, and peer-reviewed journal reviewing, making significant contributions to scientific discourse in environmental engineering.

Awards and Honors

Saman Solaimanian has received recognition for his academic and research contributions in the field of environmental and civil engineering. In 2025, he was awarded a Certificate of Excellence in Reviewing by the International Journal of Environment and Climate Change, highlighting his commitment to academic integrity and peer review contributions. His research has been published in high-impact journals and presented at international conferences, including the International Congress on Civil Engineering, Architecture, and Building Materials (Finland), the International Conference on Recent Advances in Engineering, Innovation, and Technology (Belgium), and the International Congress of Developing Agriculture, Natural Resources, and Environment (Iran). He has collaborated on multiple research projects related to sustainability, renewable energy, and water management, earning recognition from the academic community and environmental organizations. His contributions to urban sustainability planning, climate change adaptation, and AI-driven environmental solutions continue to enhance his professional standing in sustainable infrastructure development.

Conclusion

Saman Solaimanian is an emerging leader in environmental and civil engineering research, with a strong academic foundation, hands-on experience, and a passion for sustainability. His research contributions in renewable energy, waste management, and AI-driven environmental solutions demonstrate his commitment to addressing global sustainability challenges. His technical expertise, publication record, and international collaborations position him as a valuable contributor to the scientific community. While he has made significant strides in environmental research, increasing his peer-reviewed journal publications, securing research grants, and expanding international collaborations would further elevate his profile. With continued professional growth, interdisciplinary collaborations, and technological advancements, he is poised to make substantial contributions to global environmental sustainability and infrastructure resilience.

Publications Top Notes

  1. Title: Environmental risk assessment of concrete construction projects in developing countries based on Analytical Hierarchy Process method
    Author: Saman Solaimanian
    Year: 2025

  2. Title: Prioritizing The Sustainable Development Of Strategic Infrastructures Using The Analytic Hierarchy Process: A Case Study Of Iran
    Author: Saman Solaimanian
    Year: 2023

  3. Title: Prioritizing the possibility of using Renewable Energies through the application of Neutrosophic AHP (NAHP): A case study of Tehran
    Author: Saman Solaimanian
    Year: 2023

 

Chitra Sulkan | Environmental Science | Best Researcher Award

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Dr. Chitra Sulkan | Environmental Science | Best Researcher Award

Lead Research and Technology at Elecsome Pty Ltd, Australia

Dr. Chitra Sulkan is an innovative researcher specializing in solar panel recycling and sustainability. With a Ph.D. in Chemical Science and Built Environment, she has dedicated over six years to pioneering novel chemical, mechanical, and thermal recovery processes for valuable materials like silicon, silver, and glass. Currently leading research and technology development at Elecsome Pty Ltd in Australia, Dr. Sulkan focuses on scaling lab-based innovations for industrial applications. Her work contributes significantly to circular economy solutions, enhancing sustainable practices within the solar energy sector. Through numerous publications, conference presentations, and industry collaborations, she remains at the forefront of photovoltaic (PV) waste management and environmental sustainability.

Professional Profile

Education

Dr. Sulkan completed her Ph.D. in Chemical Science and Built Environment through a collaborative program between AcSIR (India) and RMIT University (Australia). She earned her Master of Science in Chemistry from MDU Rohtak, Haryana, India, in 2016, following her Bachelor of Science in Applied Science from the same institution in 2014. Her academic journey has provided her with expertise in solar panel recycling and material recovery, establishing a strong foundation for her research in sustainability.

Professional Experience

Dr. Sulkan serves as the Lead Research and Technology expert at Elecsome Pty Ltd, where she spearheads research initiatives for industrial-scale solar panel recycling. Previously, she worked as a Ph.D. researcher at AcSIR and RMIT University, focusing on innovative material recovery methods from end-of-life solar panels. Her research included life cycle assessment (LCA) studies and process optimizations for polymer and aluminum separation. Earlier in her career, she held academic positions, including Assistant Professor at Hindu Girls College and Visiting Faculty in the Chemistry Department at Deenbandhu Chhotu Ram University.

Research Interests

Dr. Sulkan’s research interests encompass solar panel recycling, material recovery, and sustainability. She is dedicated to developing efficient and eco-friendly recycling techniques for PV modules, with a focus on recovering high-value materials. Her work integrates life cycle assessment (LCA), thermal analysis, and chemical treatments to enhance recycling processes. She is also passionate about circular economy solutions and the industrial applications of sustainable energy practices, actively contributing to the transition toward renewable and sustainable technologies.

Research Skills

Dr. Sulkan possesses expertise in advanced material characterization techniques, including Fourier-transform infrared spectroscopy (FTIR), thermogravimetric analysis (TGA), differential scanning calorimetry (DSC), ultraviolet-visible spectroscopy (UV), X-ray diffraction (XRD), field emission scanning electron microscopy (FE-SEM), and X-ray fluorescence (XRF). Her proficiency in these analytical methods enables precise evaluation of recovered materials from solar panel waste. Additionally, she has significant experience in experimental design, process optimization, and sustainability assessments related to solar panel recycling.

Awards and Honors

Dr. Sulkan has received multiple accolades for her contributions to solar panel recycling research. She won the People’s Choice Award at the Haiku Thesis Competition (2024) at RMIT University and was honored with the Best Oral Presentation Award at the National Conference on Advances in Solar Energy (ASEM-2023). She has also received Best Poster Awards at various national and international conferences, including events at CSIR-NPL, Delhi, and the International Conference on Purification and Recycling of Electronic Materials (ICPREM). Additionally, she secured prestigious research grants from the Council of Scientific and Industrial Research (CSIR) in India.

Conclusion

Dr. Chitra Sulkan is a dedicated sustainability expert making significant strides in solar panel recycling and material recovery. Her extensive research contributions, academic endeavors, and industry leadership underscore her commitment to advancing environmentally sustainable solutions. Through innovative methodologies and interdisciplinary collaboration, she continues to drive impactful changes in the field of renewable energy recycling. With a strong academic and professional background, Dr. Sulkan is poised to shape the future of solar waste management, promoting circular economy principles and sustainable technology solutions worldwide.

Publications Top Notes

  1. Structural Composition and Thermal Stability of Extracted EVA from Silicon Solar Modules Waste
    Authors: Chitra, Sah, D., Lodhi, K., Kant, C., Saini, P., Kumar, S.
    Year: 2020

  2. Extraction and Analysis of Recovered Silver and Silicon from Laboratory Grade Waste Solar Cells
    Authors: Sah, D., Chitra, Lodhi, K., Kant, C., Srivastava, S. K., Kumar, S.
    Year: 2022

  3. Recovery and Analysis of Valuable Materials from Discarded Crystalline Silicon Solar Panel
    Authors: Sah, D., Chitra, Kumar, S.
    Year: 2022

  4. Recovery and Analysis of Polymeric Layers from Waste Solar Module by Chemical Route
    Authors: Chitra, Dheeraj Sah, Parveen Saini, Sushil Kumar
    Year: 2022

  5. Extraction and Analysis of Back Sheet Layer from Waste Modules
    Authors: Chitra, Dheeraj Sah, Parveen Saini, Sushil Kumar
    Year: 2022

  6. Growth of Polycrystalline Silicon Ingots Using Recycle Silicon from Waste Solar Module
    Authors: Sah, D., Chitra, Upadhyay, N.K., Muthiah, S., Sushil Kumar*
    Year: 2023

  7. Investigation and Recovery of Copper from Waste Silicon Solar Module
    Authors: Dheeraj Sah, Chitra, Sushil Kumar*
    Year: 2022

  8. Optimized EVA Decomposition in Bifacial Solar Panels: Sustainable Recovery of Polymerized Oil and Materials
    Authors: Chitra Sulkan*, Prashant Kumar Thakur, Shailza Sharma, Neeraj Das
    Year: 2025

  9. Evaluation of Environmental Footprint: Life Cycle Assessment of Laboratory-Scale Thermal and Chemical Processes Used for Materials Extraction from Waste Silicon Solar Panels
    Authors: Chitra Sulkan, Prashant Kumar Thakur, Rebecca Yang*, Sushil Kumar
    Year: 2025

  10. Sustainable Energy Practices: Analysis of Gases and Particulate Matter Emissions During Pyrolysis of Polymeric Layers of Waste Silicon Solar Panels for Recycling Process
    Authors: Chitra Sulkan, Dheeraj Sah, Rahul, T.K. Mondal, Parveen Saini, Rebecca Yang, Sushil Kumar