Prof. WILLIAM GODDARD | Computational Chemistry | Best Researcher Award

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Prof. WILLIAM GODDARD | Computational Chemistry| Best Researcher Award

Prof. WILLIAM GODDARD , California Institute of Technology, United States

William A. Goddard, III is the Charles and Mary Ferkel Professor of Chemistry, Materials Science, and Applied Physics at Caltech. With over six decades of groundbreaking research, he is a pioneer in theoretical chemistry and materials science. He has led the Materials and Process Simulation Center since 1990, driving advancements in nanotechnology, quantum molecular science, and catalysis. Dr. Goddard’s interdisciplinary work bridges physics, chemistry, and engineering, earning him recognition as one of the world’s top scientists. His prolific career includes 1673 publications, 33 patents, and numerous accolades, including the prestigious Horizon Prize from the Royal Society of Chemistry in 2024.

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Summary of Suitability for Award:

William A. Goddard, III is an exemplary candidate for the “Best Researcher Awards” due to his unparalleled contributions to theoretical chemistry, materials science, and nanotechnology. With over 1,673 publications, an H-index of 196, and I-10 index of 1,446, his research impact is globally recognized. His pioneering computational methods, including molecular dynamics and quantum simulations, have revolutionized fields like catalysis, renewable energy, and nanomaterials. He has seamlessly bridged theoretical and applied sciences, solving real-world problems across disciplines.William A. Goddard, III embodies the qualities of a distinguished researcher: groundbreaking discoveries, a prolific publication record, global recognition, and transformative impact. His contributions have shaped modern science and technology, making him an exceptional choice for the “Best Researcher Awards.”

🎓Education:

William A. Goddard, III earned a B.S. in Engineering (Highest Honors) from UCLA in 1960, demonstrating exceptional aptitude in interdisciplinary sciences. He pursued his Ph.D. in Engineering Science with a minor in Physics at Caltech, completing his doctorate in October 1964. During his doctoral journey, he delved into theoretical chemistry, pioneering methods that combined computational and physical principles. Post-Ph.D., he was appointed the Alfred A. Noyes Research Fellow of Chemistry at Caltech (1964-1966), focusing on advanced molecular theories. This formative education laid the foundation for his extensive contributions to materials science, catalysis, and nanotechnology.

🏢Work Experience:

William A. Goddard, III has dedicated his career to Caltech, holding several prestigious roles since 1967. He began as an Assistant Professor of Theoretical Chemistry, progressing to a full professorship in 1978. From 1984-2001, he served as the Charles and Mary Ferkel Professor of Chemistry and Applied Physics, a title he continues to hold today. As Director of the Materials and Process Simulation Center (MSC) since 1990, he has spearheaded computational methods in materials science. He also led NSF research groups (1992-1997) and oversaw major Grand Challenge Applications initiatives. Beyond Caltech, his global impact includes roles such as the IISc-DST Centenary Chair Professor at the Indian Institute of Science and a World Class University Professor at KAIST. His mentorship has fostered interdisciplinary collaboration and innovation worldwide.

🏅Awards: 

Dr. Goddard has received numerous accolades, including election to the National Academy of Sciences (1984) and the Royal Society of Chemistry Fellowship (2008). Notable awards include the Feynman Prize for Nanotechnology Theory (1999), NASA Space Sciences Awards (2000, 2009, 2012), and the ACS Award for Theoretical Chemistry (2007). His achievements extend internationally, such as an honorary doctorate from Uppsala University, Sweden (2004). He is consistently named a Clarivate Highly Cited Researcher (2018-2021) and was ranked #13 globally among chemistry scientists in 2023 by Research.com. In 2024, Dr. Goddard received the Horizon Prize from the Royal Society of Chemistry, recognizing his transformative contributions to theoretical chemistry.

🔬Research Focus:

William A. Goddard, III’s research focuses on developing theoretical methods and computational models for solving complex problems in chemistry, physics, and materials science. He pioneered molecular dynamics simulations, quantum mechanics applications, and catalysis studies, advancing fields such as nanotechnology and renewable energy. Key contributions include the design of new catalysts for sustainable processes, computational methods for polymers and alloys, and innovations in quantum molecular simulations. His interdisciplinary work addresses challenges in energy efficiency, water sustainability, and biomedical applications. By combining theory with experimentation, he bridges fundamental science and practical applications, influencing fields from aerospace to pharmaceuticals.

Publication Top Notes:

“UFF, a full periodic table force field for molecular mechanics and molecular dynamics simulations”
Authors: AK Rappé, CJ Casewit, KS Colwell, WA Goddard III, WM Skiff
Citations: 11,397
Year: 1992

“DREIDING: a generic force field for molecular simulations”
Authors: SL Mayo, BD Olafson, WA Goddard
Citations: 7,687
Year: 1990

“ReaxFF: a reactive force field for hydrocarbons”
Authors: ACT Van Duin, S Dasgupta, F Lorant, WA Goddard
Citations: 6,564
Year: 2001

“Starburst dendrimers: molecular-level control of size, shape, surface chemistry, topology, and flexibility from atoms to macroscopic matter”
Authors: DA Tomalia, AM Naylor, WA Goddard III
Citations: 4,707
Year: 1990

“Charge equilibration for molecular dynamics simulations”
Authors: AK Rappé, WA Goddard III
Citations: 3,743
Year: 1991

“Silicon nanowires as efficient thermoelectric materials”
Authors: AI Boukai, Y Bunimovich, J Tahir-Kheli, JK Yu, WA Goddard III, JR Heath
Citations: 3,474
Year: 2008

“Advances in molecular quantum chemistry contained in the Q-Chem 4 program package”
Authors: Y Shao, Z Gan, E Epifanovsky, ATB Gilbert, M Wormit, J Kussmann, …
Citations: 3,223
Year: 2015

“ReaxFF reactive force field for molecular dynamics simulations of hydrocarbon oxidation”
Authors: K Chenoweth, ACT Van Duin, WA Goddard
Citations: 2,614
Year: 2008

“Catalysis research of relevance to carbon management: progress, challenges, and opportunities”
Authors: H Arakawa, M Aresta, JN Armor, MA Barteau, EJ Beckman, AT Bell, …
Citations: 1,675
Year: 2001

“Thermal conductivity of carbon nanotubes”
Authors: J Che, T Cagin, WA Goddard III
Citations: 1,535
Year: 2000

 

 

 

 

 

Prof. Dr. Silvia Cristina Sobottka Rolim de Moura | Food Chemistry | Best Researcher Award

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Prof. Dr. Silvia Cristina Sobottka Rolim de Moura | Food Chemistry | Best Researcher Award

Prof. Dr. Silvia Cristina Sobottka Rolim de Moura , Instituto de Tecnologia de Alimentos , Brazil

Dr. Sílvia Cristina Sobottka Rolim de Moura is a prominent researcher and Technical Director at the Institute of Food Technology (ITAL) in Brazil. She holds a PhD in Food Engineering from UNICAMP and is a postgraduate professor in Food Science and Technology. With a focus on food process engineering, Dr. Moura specializes in microencapsulation, stability of functional compounds, and plant-based product processing. As a member of various internal committees, she contributes significantly to scientific integrity and biosafety. Dr. Moura has guided numerous students, participated in international research collaborations, and has been a reviewer for multiple scientific journals. She is actively engaged in research to develop healthier and more sustainable food products, working on multiple national and international projects related to functional foods.

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Summary of Suitability for Award:

Dr. Sílvia Cristina Sobottka Rolim de Moura demonstrates outstanding contributions to food science and technology, making her an ideal candidate for the “Best Researcher Award.” Her expertise in food engineering, particularly in microencapsulation, stability of functional compounds, and the development of healthy food products, has led to numerous groundbreaking studies. With a PhD in Food Engineering and over 30 published works, including articles in high-impact journals and books, Dr. Moura has significantly advanced the field of food technology. Her research directly addresses critical global issues such as food sustainability and the incorporation of bioactive compounds into food systems. Through her role as a mentor, she has guided numerous postgraduate students, shaping the next generation of food scientists. Additionally, her consultancy work with industry projects focused on food stability and shelf life estimation further exemplifies her leadership in bridging academic research with practical applications.

🎓Education:

Dr. Sílvia Cristina Sobottka Rolim de Moura completed her PhD in Food Engineering from the Faculty of Food Engineering at UNICAMP (University of Campinas), focusing on food technology and process engineering. Her academic path included undergraduate and postgraduate studies in the field of food sciences, followed by significant research in areas related to food stability, microencapsulation, and functional compounds. Her educational journey laid the foundation for her extensive career in food technology, where she continues to influence the development of healthier, sustainable food products. As a teacher in ITAL’s postgraduate program, Dr. Moura mentors graduate students in Food Science and Technology, guiding them through scientific research and innovation in food processes. Through her international research experiences, particularly at the University of Minho, she has expanded her knowledge base, working on advanced techniques related to the stability and digestibility of food compounds.

🏢Work Experience:

Dr. Sílvia Cristina Sobottka Rolim de Moura has over two decades of experience in food engineering and technology. As the deputy technical director at ITAL’s Fruit and Vegetable Technology Center, she plays a pivotal role in overseeing projects that focus on the development and optimization of food processes. She has led various research projects, particularly in the area of microencapsulation of bioactive compounds and the stability of functional foods. Dr. Moura has guided over 30 scientific initiation interns and mentored 7 postgraduate students in Food Science and Technology. Additionally, her involvement in consultancy and industry projects, such as estimating the shelf life of food products like orange juice and yeast extract, showcases her expertise in food product stability. Dr. Moura is also an active reviewer for several prestigious food science journals, demonstrating her influential role in the global food research community.

🏅Awards: 

Dr. Sílvia Cristina Sobottka Rolim de Moura has received recognition for her contributions to food science, including multiple awards for her research in food technology and innovation. Her research scholarship abroad, funded by FAPESP, at the University of Minho’s Center for Biological Engineering in Portugal, stands out among her honors. Dr. Moura’s dedication to advancing food technology has also earned her prestigious roles in several research committees, such as the ITAL Internal Biosafety and Scientific Integrity Committees. She has also been honored for her leadership and mentorship in guiding numerous students and leading short-term extension courses. Her scientific achievements have been recognized by her peers, evidenced by her participation in over 10 doctoral and master’s thesis defense committees. Dr. Moura’s work on the physical-chemical stability and microencapsulation of bioactive compounds in food continues to enhance her reputation in the food science community.

🔬Research Focus:

Dr. Sílvia Cristina Sobottka Rolim de Moura’s research focuses on food process engineering, specifically in the areas of microencapsulation and the stability of functional compounds. Her work aims to optimize the processing of plant-based products, developing healthier and more sustainable food options. She specializes in the development of microencapsulation techniques, particularly ionic gelation, to enhance the stability and bioavailability of bioactive compounds, such as antioxidants and polyphenols. Dr. Moura has conducted extensive research on the incorporation of plant extracts into food products like yogurt and non-alcoholic beverages. Additionally, her studies on the in vitro digestibility and stability of microparticles have contributed to a deeper understanding of functional food products. Her research efforts are aligned with the growing demand for functional foods that provide health benefits, such as improved digestion and antioxidant properties. Dr. Moura’s research continues to advance the development of innovative, sustainable food technologies.

Publication Top Notes:

Encapsulating anthocyanins from Hibiscus sabdariffa L. calyces by ionic gelation: Pigment stability during storage of microparticles

Authors: SCSR de Moura, CL Berling, SPM Germer, ID Alvim, MD Hubinger

Journal: Food Chemistry, 241, 317-327

Citations: 186

Year: 2018

Release of anthocyanins from the hibiscus extract encapsulated by ionic gelation and application of microparticles in jelly candy

Authors: SCSR de Moura, CL Berling, AO Garcia, MB Queiroz, ID Alvim, …

Journal: Food Research International, 121, 542-552

Citations: 124

Year: 2019

Stability of hibiscus extract encapsulated by ionic gelation incorporated in yogurt

Authors: SCSR de Moura, GN Schettini, AO Garcia, DA Gallina, ID Alvim, …

Journal: Food and Bioprocess Technology, 12, 1500-1515

Citations: 72

Year: 2019

Degradation kinetics of anthocyanin of traditional and low-sugar blackberry jam

Authors: SCSR de Moura, PE da Rocha Tavares, SPM Germer, ALAC Nisida, …

Journal: Food and Bioprocess Technology, 5, 2488-2496

Citations: 60

Year: 2012

Determinação da vida-de-prateleira de maçã-passa por testes acelerados

Authors: SCSR Moura, SA Berbari, SPM Germer, MEM Almeida, DA Fefim

Journal: Food Science and Technology, 27, 141-148

Citations: 41

Year: 2007

Estudo da vida-de-prateleira de fruta estruturada e desidratada obtida de polpa concentrada de mamão

Authors: RK Grizotto, SAG Berbari, SCSR Moura, ML Claus

Journal: Food Science and Technology, 26, 709-714

Citations: 35

Year: 2006

Propriedades termofísicas de soluções modelo similares a sucos – Parte I

Authors: SCSR Moura, VCL França, ÁMCB Leal

Journal: Food Science and Technology, 23, 62-68

Citations: 31

Year: 2003

Thermophysical properties of tropical fruit juices

Authors: S Moura, SPM Germer, DCP Jardim, MS Sadahira

Citations: 31

Year: 1998

Color degradation kinetics in low-calorie strawberry and guava jellies

Authors: SCSR Moura, P Prati, FZ Vissotto, RCSC Ormenese, M Santos Rafacho

Journal: Food Science and Technology, 31, 758-764

Citations: 23

Year: 2011

A study of water activity and electrical conductivity in fruit juices: Influence of temperature and concentration

Authors: S Moura, ADA Vitali, MD Hubinger

Journal: Brazilian Journal Food Technology, 2, 31-38

Citations: 23

Year: 1999

 

 

 

 

 

Ms. Maryam Tariq | Sustainable development | Chemical Resilience and Sustainability Award

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Ms. Maryam Tariq | Sustainable development | Chemical Resilience and Sustainability Award

Ms. Maryam Tariq , University of Engineering and Technology, Lahore, Pakistan

Maryam Tariq is a skilled civil engineer specializing in sustainable construction, environmental engineering, and innovative materials. Currently pursuing a Master’s in Environmental Engineering at the University of Engineering and Technology, Lahore, her research focuses on bamboo-concrete integration using nanotechnology for resilient structures. She is a LEED Green Associate, recognized for her leadership and communication skills, and has led impactful projects, including hybrid renewable energy systems and chemically treated bamboo applications. With expertise in climate adaptation, waste management, and nanomaterials, Maryam is committed to advancing sustainability and eco-friendly practices through academic and practical contributions.

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Summary of Suitability for Award:

Maryam Tariq is an exceptionally qualified candidate for the “Chemical Resilience and Sustainability Award”, owing to her groundbreaking research and academic achievements in sustainable construction and environmental engineering. Her innovative work focuses on chemically treating bamboo reinforced with nanoparticles to create eco-friendly and resilient construction materials. These contributions align seamlessly with the principles of chemical resilience and sustainability by advancing the use of renewable, biodegradable materials in place of conventional, resource-intensive alternatives like steel. Maryam Tariq’s pioneering work in chemically treated bamboo for sustainable construction and her broader research into renewable energy systems make her an exemplary choice for the Chemical Resilience and Sustainability Award. Her contributions not only advance the scientific understanding of resilient, eco-friendly materials but also align closely with global sustainability goals, particularly SDGs 9, 11, and 13. Awarding her this recognition would celebrate her efforts and inspire future innovations in chemical sustainability.

🎓Education:

Maryam Tariq is a dedicated scholar currently pursuing her Master of Science in Environmental Engineering at the University of Engineering and Technology, Lahore. Her coursework emphasizes climate change adaptation, solid waste management, and the use of nanomaterials for sustainable development. Her thesis, focused on synergistic bamboo-concrete integration enhanced with nanoparticles, reflects her commitment to innovative and eco-friendly solutions in infrastructure. She holds a Bachelor’s degree in Civil Engineering from the University of Central Punjab, where she honed her expertise in structural engineering through projects like CFRP-wrapped columns and bamboo reinforcement. Her strong academic foundation was laid at District Public School and College for Girls where she excelled in science and pre-engineering disciplines. Throughout her education, Maryam has demonstrated an exceptional ability to combine technical knowledge with practical applications, making her a promising figure in the field of sustainable engineering.

🏢Work Experience:

Maryam Tariq’s professional journey reflects her dedication to sustainable engineering and innovative construction. She is currently interning with Structax Consultancy through the Pakistan Engineering Council OJT Program, contributing to high-impact construction projects. Since December 2024, she has served as a Project Coordinator at NRTC Energies, overseeing energy sustainability projects and utilizing tools like MS Project and Power BI to streamline operations. Her standout projects include developing bamboo-nanoparticle concrete beams as cost-effective and eco-friendly alternatives to steel reinforcement and conducting a techno-economic assessment of floating photovoltaics hybridized with hydropower plants. She also brings experience in analyzing slender columns using CFRP wrapping techniques. With her strong organizational and leadership skills, Maryam has successfully managed multidisciplinary teams, ensuring the delivery of innovative, sustainable solutions aligned with global environmental goals.

🏅Awards: 

Maryam Tariq has received multiple accolades recognizing her contributions to sustainable engineering. She won the PEC FYDP Achievement Award (2023) for her groundbreaking project on sustainable construction. She was selected for the Hatch-08 Entrepreneurship Platform (2023) at NSTP-NUST, where she developed her entrepreneurial skills. Maryam reached the final stages of the FICS Research Competition (2023) for her work on bamboo-concrete integration, highlighting her research’s impact. In 2024, she earned the prestigious LEED Green Associate credential from the U.S. Green Building Council, reflecting her expertise in green architecture and eco-friendly designs. These achievements underscore her dedication to addressing global environmental challenges through innovative engineering solutions.

🔬Research Focus:

Maryam Tariq’s research centers on sustainable construction and renewable energy systems. She explores the use of chemically treated bamboo and nanoparticles as eco-friendly alternatives to steel reinforcement in concrete, advancing cost-effective, resilient infrastructure solutions. Her work also delves into hybrid renewable energy systems, such as floating photovoltaics combined with hydropower plants, aiming to optimize land use, conserve water, and reduce greenhouse gas emissions. Additionally, she focuses on climate change adaptation, nanomaterials, and waste management, aligning her efforts with global sustainability goals, particularly SDGs 9, 11, and 13. Maryam’s innovative studies are paving the way for smarter, more sustainable engineering practices.

Publication Top Notes:

Advancing Sustainable Construction: Experimental Study of Concrete Beams Reinforced with Chemically Treated Bamboo and Enhanced Interfacial Bonding Using Nanotechnology

Authors: M. Tariq, S. Haydar, R.A. Khushnood, A. Hameed, N. Khan

Journal: Journal of Building Engineering, 2025, Volume 99, Article 111552

Abstract: This study investigates the structural performance of concrete beams reinforced with chemically treated bamboo, aiming to enhance interfacial bonding through nanotechnology. The research explores the potential of bamboo as a sustainable alternative to traditional steel reinforcement in concrete structures.

Evaluating the Potential of Chemically Modified Bamboo for Sustainable and Green Construction

Authors: M. Tariq, R.A. Khushnood, Z.B. Babar, M.A. Basit

Journal: Journal of Building Engineering, 2024, Volume 86, Article 108634

Abstract: This paper examines the effectiveness of acid-based chemical treatments on bamboo to improve its durability, physicochemical, structural, and mechanical properties. The goal is to assess bamboo’s viability as a sustainable construction material.

 

 

 

 

 

Assoc. Prof. Dr. Ranjan Khunt | Medicinal Chemistry | Best Researcher Award

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Assoc. Prof. Dr. Ranjan Khunt | Medicinal Chemistry | Best Researcher Award

Assoc. Prof. Dr. Ranjan Khunt , Saurashtra University , India

Dr. Ranjan C. Khunt is an accomplished Associate Professor in the Department of Chemistry at Saurashtra University, Rajkot, with over 25 years of teaching and 20 years of research experience. He holds an M.Sc. and Ph.D. from Saurashtra University, specializing in Heterocyclic Medicinal Chemistry, Nano-Science, and Spectroscopy. Dr. Khunt has significantly contributed to nano-science and method development, focusing on advancing spectroscopy and medicinal chemistry. He has published 105 research papers and holds 7 patents. With a track record of guiding 14 research students and mentoring 3 current students, Dr. Khunt is committed to fostering the next generation of chemists. His leadership is further demonstrated by his academic service, including serving as a member of the National Magnetic Resonance Society and receiving recognition for his teaching excellence and research achievements.

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Summary of Suitability for Award:

Dr. Ranjan C. Khunt is highly suitable for the Best Researcher Award due to his remarkable contributions in Medicinal Chemistry, Nano-Science, and Spectroscopy. With over 20 years of research experience, Dr. Khunt has authored 105 research papers and holds 7 patents, underscoring his prolific output and innovation in the field. His focus on developing novel heterocyclic compounds with potential medicinal applications, as well as his expertise in nano-materials for environmental and medical purposes, has had a significant impact on both theoretical and applied chemistry. Moreover, his contributions to spectroscopic methods have advanced chemical analysis techniques. Dr. Khunt’s leadership in guiding 14 research students and his mentorship in a wide array of interdisciplinary projects demonstrate his commitment to fostering future researchers. His numerous awards, including the Best Teacher Award and recognition by institutions like the National Magnetic Resonance Society, further solidify his candidacy for this prestigious honor.

🎓Education:

Dr. Ranjan C. Khunt’s educational journey began at Saurashtra University, where he completed both his M.Sc. and Ph.D. in Chemistry. His doctoral research focused on Heterocyclic Medicinal Chemistry, a field that would shape his subsequent career. Throughout his academic journey, he gained extensive knowledge in Nano-Science and Spectroscopy, which became key areas of his research expertise. Dr. Khunt’s research interests in these fields reflect a strong foundation in both theoretical and practical aspects of chemistry. His academic qualifications provided him with a robust understanding of the intersection between chemistry, medicinal applications, and cutting-edge technological developments. Dr. Khunt’s commitment to his education extended beyond the classroom as he engaged in continuous learning and contributed to the field’s advancement through teaching and research at Saurashtra University, where he remains an influential figure in the academic community.

🏢Work Experience:

Dr. Ranjan C. Khunt has a distinguished teaching and research career spanning over 25 years. He has been an Associate Professor at the Department of Chemistry, Saurashtra University, Rajkot, for more than two decades, where he has mentored numerous students and played a pivotal role in the university’s academic development. His expertise spans Heterocyclic Medicinal Chemistry, Nano-Science, Spectroscopy, and Method Development and Validation. With 20 years of research experience, Dr. Khunt has led groundbreaking work in these fields, contributing to the development of new methods and technologies. In addition to his teaching responsibilities, he has guided 14 research students, fostering a research-driven environment at the university. Dr. Khunt’s academic career is also marked by 17 invitations from other institutions, reflecting his reputation as a leader in his field. His research projects have resulted in valuable advancements, and his work continues to influence the future of chemistry education and research.

🏅Awards: 

Dr. Ranjan C. Khunt’s academic and professional excellence has been recognized through various prestigious awards and honors. He was awarded the Best Teacher Award by the Institute of Scholars, which acknowledged his exceptional teaching abilities and commitment to student development. In addition, he received the Nation Builder’s Award from the Rotary Club of Rajkot Prime, a testament to his contributions to education and society. Dr. Khunt was honored with the Fast Track Young Scientist Fellowship, which highlighted his emerging role in advancing scientific research. He also serves as an Executive Committee Member of the National Magnetic Resonance Society, Bangalore, an esteemed position that reflects his influence in the field of spectroscopy. These recognitions, along with 6 research projects and his impressive publication record, underscore Dr. Khunt’s dedication to the scientific community, educational excellence, and innovation.

🔬Research Focus:

Dr. Ranjan C. Khunt’s research focuses on the intersection of Medicinal Chemistry, Nano-Science, and Spectroscopy, areas in which he has made significant advancements. His expertise in Heterocyclic Chemistry has led to the development of novel compounds with medicinal applications, especially those aimed at improving health outcomes. Dr. Khunt’s work in Nano-Science is driven by the exploration of nanomaterials for use in various chemical processes and their applications in drug delivery systems, diagnostics, and therapeutic interventions. Additionally, his contributions to Spectroscopy and Method Development have been fundamental in advancing analytical techniques, aiding in precise measurement and characterization of chemical compounds. His research aims to bridge the gap between fundamental chemical knowledge and practical applications in medicine, pharmaceuticals, and environmental chemistry. Dr. Khunt’s work is critical for advancing both the theoretical and practical aspects of modern chemistry, especially in sustainable and health-related areas.

Publication Top Notes:

Synthesis, antitubercular evaluation and 3D-QSAR study of N-phenyl-3-(4-fluorophenyl)-4-substituted pyrazole derivatives
Authors: RC Khunt, VM Khedkar, RS Chawda, NA Chauhan, AR Parikh, …
Journal: Bioorganic & Medicinal Chemistry Letters
Citations: 109
Year: 2012

Synthesis of some new heterocyclic compounds with potential biological activity
Authors: DP Bhoot, RC Khunt, VK Shankhavara, HH Parekh
Journal: Journal of Sciences, Islamic Republic of Iran
Citations: 36
Year: 2006

Plant pigments as dietary anticancer agents
Author: RK Upadhyay
Journal: International Journal of Green Pharmacy (IJGP)
Citations: 33
Year: 2018

Synthesis of certain 1, 3, 4-oxadiazoles as potential antitubercular and antimicrobial agents
Authors: SR Dhol, AS Bhimani, RC Khunt, AR Parikh
Journal: Indian Journal of Heterocyclic Chemistry
Citations: 25
Year: 2005

Synthesis and biological evaluation of cyanopyridine and isozazole derivatives
Authors: RC Khunt, NJ Datta, FM Bharmal, GP Mankad, AR Parikh
Journal: Indian Journal of Heterocyclic Chemistry
Citations: 24
Year: 2000

Discovery of hybrid purine-quinoline molecules and their cytotoxic evaluation
Authors: KM Kapadiya, RC Khunt
Journal: Letters in Drug Design & Discovery
Citations: 23
Year: 2019

Synthesis of Purine‐based Triazoles by Copper (I)‐catalyzed Huisgen Azide–Alkyne Cycloaddition Reaction
Authors: K Kapadiya, Y Jadeja, R Khunt
Journal: Journal of Heterocyclic Chemistry
Citations: 23
Year: 2018

Synthesis of some new 4-thiazolidinones as biologically potent agents
Authors: NJ Datta, RC Khunt, AR Parikh
Journal: NISCAIR-CSIR, India
Citations: 23
Year: 2002

Dihedral angle study in Hesperidin using NMR Spectroscopy
Authors: YS Jadeja, KM Kapadiya, HJ Jebaliya, AK Shah, RC Khunt
Journal: Magnetic Resonance in Chemistry
Citations: 21
Year: 2017

UV-Vis spectrophotometric assay determination of oral antiplatelet ticagrelor drug in pharmaceutical formulation: Application to content uniformity
Authors: D Pandya, M Patel, R Ghediya, A Shah, R Khunt
Journal: Journal of Chemical and Pharmaceutical Research
Citations: 20
Year: 2016

 

 

 

 

 

Assist. Prof. Dr. Mohammad Bagher Farhangi | Biogeotechnology | Environmental Chemistry Award

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Assist. Prof. Dr. Mohammad Bagher Farhangi | Biogeotechnology | Environmental Chemistry Award

Assist. Prof. Dr. Mohammad Bagher Farhangi , University of Guilan , Iran

Prof. Dr. Mohammad Bagher Farhangi is a distinguished professor of soil microbiology at the University of Guilan, Iran. With a profound passion for environmental sustainability, he has dedicated his academic career to enhancing our understanding of microbial processes in soil and water systems. A seasoned educator and researcher, Prof. Farhangi excels in developing innovative teaching methodologies and supervising graduate students. His pioneering work on microbially induced calcite precipitation (MICP) has made significant contributions to the fields of environmental remediation and soil stabilization. He is actively involved in interdisciplinary collaborations, bringing expertise in microbiology to solve pressing global environmental challenges. Beyond academia, Prof. Farhangi is known for his leadership in departmental growth and university fundraising initiatives, reflecting his commitment to advancing education and research.

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Summary of Suitability for Award:

Prof. Mohammad Bagher Farhangi is highly suitable for the “Environmental Chemistry Award” due to his pioneering contributions to sustainable environmental remediation through microbiological methods. His research emphasizes the integration of microbiology and environmental chemistry, focusing on Microbially Induced Calcite Precipitation (MICP) to remove heavy metals from water and soil and to filter pathogenic bacteria. These innovative approaches align directly with the principles of environmental chemistry by addressing pollution control and promoting sustainable environmental practices. Prof. Farhangi’s contributions exemplify the application of chemical and microbiological processes to address critical environmental challenges. His innovative methods in bioremediation and microbial applications make him an excellent candidate for the Environmental Chemistry Award, highlighting his commitment to sustainable environmental solutions and impactful research outcomes.

🎓Education:

Prof. Mohammad Bagher Farhangi has a comprehensive educational foundation in soil microbiology and environmental sciences. He earned his Ph.D. in Soil Microbiology, focusing on the role of microorganisms in soil ecosystems and their potential for environmental remediation. His M.Sc. in Soil Science emphasized microbial ecology and nutrient cycling, providing a deeper understanding of soil-plant interactions and sustainable agricultural practices. Beginning with a B.Sc. in Agriculture, Prof. Farhangi developed a strong foundation in agricultural sciences, particularly in managing soil health for improved productivity. Throughout his academic journey, he has engaged in interdisciplinary studies, integrating microbiology, chemistry, and environmental sciences. His education equips him to address pressing challenges in soil and environmental microbiology, including sustainable remediation technologies like microbially induced calcite precipitation (MICP).

🏢Work Experience:

Prof. Mohammad Bagher Farhangi boasts extensive professional experience in academia and research. Currently a professor of soil microbiology at the University of Guilan, he has played a pivotal role in enhancing the institution’s academic and research landscape. His expertise includes supervising graduate students, with several completing impactful theses under his guidance. Prof. Farhangi has spearheaded innovative research projects, notably in MICP technology, addressing heavy metal remediation and bacterial filtration. A dedicated educator, he has modernized course content to reflect the latest trends in microbiology and soil science. His collaborative endeavors extend to interdisciplinary research and consultancy projects, bridging academia and industry. Additionally, his leadership in university fundraising and departmental growth underscores his commitment to institutional advancement.

🏅Awards: 

Prof. Mohammad Bagher Farhangi’s outstanding contributions to soil microbiology and environmental science have been recognized with numerous accolades. He received the prestigious Young Scientist Award, celebrating his innovative research in MICP technology. His efforts in transforming academic practices earned him a Teaching Excellence Award, recognizing his dedication to modernizing educational methodologies. Prof. Farhangi has also been acknowledged with a Research Grant Award for his impactful projects in microbial applications for environmental remediation. His mentorship and guidance of graduate students have been lauded with a Student Leadership Award, showcasing his commitment to academic and professional growth. These honors reflect his unwavering dedication to advancing knowledge in soil microbiology and his role as a leader in the scientific community.

🔬Research Focus:

Prof. Mohammad Bagher Farhangi’s research centers on advancing environmental microbiology, with a particular focus on sustainable and innovative solutions. His expertise lies in Microbially Induced Calcite Precipitation (MICP), a cutting-edge technology used for heavy metal removal from water and soil and bacterial filtration. He explores the potential of microorganisms in stabilizing soils, improving structural integrity, and mitigating environmental pollution. His studies on pathogenic indicator bacteria filtration are groundbreaking in microbial water purification. Additionally, he delves into soil microbial ecology, examining nutrient cycling, microbial diversity, and ecosystem sustainability. Prof. Farhangi’s interdisciplinary approach integrates microbiology, chemistry, and environmental science, addressing global challenges like soil health, pollution control, and sustainable agriculture. His work is pivotal in bridging fundamental science with practical applications for environmental and societal benefit.

Publication Top Notes:

Saturated and unsaturated transport of cow manure-borne Escherichia coli through in situ clay loam lysimeters
Authors: MR Mosaddeghi, AAS Sinegani, MB Farhangi, AA Mahboubi, A Unc
Journal: Agriculture, Ecosystems & Environment
Citations: 34
Year: 2010

Bioremediation of cadmium in a sandy and a clay soil by microbially induced calcium carbonate precipitation after one week incubation
Authors: N Ghorbanzadeh, S Abduolrahimi, A Forghani, MB Farhangi
Journal: Arid Land Research and Management
Citations: 31
Year: 2020

Impact of calcium carbonate and temperature on survival of Escherichia coli in soil
Authors: MB Farhangi, AAS Sinegani, MR Mosaddeghi, A Unc, G Khodakaramian
Journal: Journal of Environmental Management
Citations: 22
Year: 2013

Short-term impacts of pomace application and Pseudomonas bacteria on soil available phosphorus
Authors: N Ghorbanzadeh, M Mahsefat, MB Farhangi, MK Rad, P Proietti
Journal: Biocatalysis and Agricultural Biotechnology
Citations: 18
Year: 2020

Effect of precipitation and sediment concentration on the loss of nitrogen and phosphorus in the Pasikhan River
Authors: E Ebrahimi, H Asadi, M Rahmani, MB Farhangi, A Ashrafzadeh
Journal: AQUA-Water Infrastructure, Ecosystems and Society
Citations: 10
Year: 2022

Soil quality assessment of paddy fields (in Northern Iran) with different productivities: Establishing the critical limits of minimum data set indicators
Authors: S Hemmati, N Yaghmaeian, MB Farhangi, A Sabouri
Journal: Environmental Science and Pollution Research
Citations: 9
Year: 2023

Variation entry of sediment, organic matter and different forms of phosphorus and nitrogen in flood and normal events in the Anzali wetland
Authors: E Ebrahimi, H Asadi, M Joudi, M Rezaei Rashti, MB Farhangi, …
Journal: Journal of Water and Climate Change
Citations: 9
Year: 2022

Phosphate removal from landfill leachate using ferric iron bioremediation under anaerobic condition
Authors: MB Farhangi, Z Ghasemzadeh, N Ghorbanzadeh, M Khalilirad, A Unc
Journal: Journal of Material Cycles and Waste Management
Citations: 9
Year: 2021

Potential application of Chlorella sp. biomass cultivated in landfill leachate as agricultural fertilizer
Authors: E Saadat, N Ghorbanzadeh, MB Farhangi, M Fazeli Sangani
Journal: Archives of Agronomy and Soil Science
Citations: 8
Year: 2023

Zinc bioremediation in soil by two isolated L-asparaginase and urease producing bacteria strains
Authors: N Ghorbanzadeh, Z Ghanbari, MB Farhangi, MK Rad
Journal: Applied Geochemistry
Citations: 8
Year: 2022

 

 

 

 

 

 

Dr. Miglena Slavova | Electrochemistry | Best Researcher Award

Published on by Chemistry Awards

Dr. Miglena Slavova | Electrochemistry | Best Researcher Award

Dr. Miglena Slavova , Institute of Electrochemistry and Energy Sources – Bulgarian Academy of Sciences, Todor Kableshkov University of Transport , Bulgaria

Dr. Miglena Petkova Slavova, a distinguished researcher and academic, is affiliated with the Institute of Electrochemistry and Energy Systems (IEES) of the Bulgarian Academy of Sciences and serves as an Associate Professor at Todor Kableshkov University of Transport. She holds a Ph.D. in Organic Chemistry from Shumen University and a Master’s in Analytical Chemistry from Sofia University. Based in Sofia, Bulgaria, her work focuses on developing innovative Zn/air batteries and advancing electrochemical energy systems. Dr. Slavova’s contributions are evident in her extensive research publications, patents, and active participation in international projects like Horizon 2020 and FP7 initiatives. She has co-authored books on analytical chemistry and has a growing citation index reflecting her academic influence. Passionate about fostering sustainability in energy systems, she seamlessly integrates her research expertise with her teaching responsibilities, nurturing the next generation of scientists.

Professional Profile

Orcid

Scopus

Summary of Suitability for Award:

Dr. Miglena Petkova Slavova is an exceptional candidate for the “Best Researcher Award” due to her significant contributions to energy research and innovative advancements in electrochemical systems. Her expertise in Zn/air batteries and solid oxide fuel cells is exemplified by her participation in prestigious international projects, such as Horizon 2020 and FP7, which address critical challenges in energy sustainability. Dr. Slavova’s research has not only resulted in 35 impactful publications but also led to groundbreaking patents, including carbon-free gas diffusion electrodes, demonstrating her ability to translate scientific insights into practical innovations .Dr. Slavova embodies the qualities of a “Best Researcher Award” through her groundbreaking contributions to energy storage technologies, academic excellence, and sustained innovation. Her work addresses global energy challenges while fostering educational advancements, making her a highly deserving candidate for this prestigious recognition.

🎓Education:

Dr. Miglena Petkova Slavova holds a Master’s degree in Analytical Chemistry from Sofia University, where she developed a deep understanding of chemical analysis techniques and methodologies. She later earned a Ph.D. in Organic Chemistry from Shumen University, focusing on innovative materials and processes in energy systems. Her academic foundation is further strengthened by her involvement in co-authoring educational textbooks, such as “Analytical Chemistry” and “Analytical Chemistry Protocols for Quantitative Analysis”, which serve as vital resources for students and researchers. Through her educational journey, Dr. Slavova has cultivated a multidisciplinary expertise, integrating organic, physical, and analytical chemistry, making her an asset in both academia and applied research.

🏢Work Experience:

Dr. Slavova is a Research Assistant at the Institute of Electrochemistry and Energy Systems (IEES), Bulgarian Academy of Sciences, where she works on sustainable energy solutions, including Zn/air batteries. Concurrently, she serves as an Associate Professor at Todor Kableshkov University of Transport, teaching chemistry and ecology. Her extensive experience includes contributions to prestigious EU-funded projects such as Horizon 2020 and FP7, focusing on developing advanced materials for batteries and fuel cells. Dr. Slavova’s hands-on expertise in electrochemical studies is complemented by her role as a co-author of analytical chemistry textbooks and her innovative patents, including designs for gas diffusion electrodes. Her dual roles in teaching and research exemplify her dedication to advancing science while mentoring future chemists.

🏅Awards: 

Dr. Slavova has received multiple accolades for her groundbreaking work in energy systems. Her patents, including those for carbon-free gas diffusion electrodes, have been recognized by the Bulgarian Patent Office for their innovation. As a key participant in Horizon 2020 and other EU-funded projects, she has earned accolades for her contributions to international research collaborations. Her co-authored textbooks on analytical chemistry have been celebrated as significant academic resources, enhancing educational quality in electrochemistry. These honors, coupled with her role in leading impactful research projects, underscore her commitment to advancing sustainable energy technologies and fostering knowledge dissemination.

🔬Research Focus:

Dr. Slavova’s research centers on developing cutting-edge energy systems, particularly rechargeable Zn/air batteries and solid oxide fuel cells. Her expertise lies in electrochemical analysis, focusing on improving the efficiency, durability, and sustainability of these systems. She has made significant strides in material science, particularly in designing carbon-free and zeolite-based gas diffusion electrodes, evidenced by her patents. Her work also explores degradation mechanisms in energy devices, contributing to predictive models for battery lifespan. Additionally, Dr. Slavova integrates her research into academia, developing innovative teaching methodologies and co-authoring textbooks to bridge the gap between theoretical knowledge and practical applications.

Publication Top Notes:

Application of zeolite and comparable porous materials for enhancing the performance of different types of secondary batteries: A review article

Authors: Slavova, M.; Slavov, I.; Terziev, V.; Mladenova, E.; Abrashev, B.

Year: 2024

Citations: 0

Electrochemical testing of zeolite-based gas-diffusion electrodes for secondary metal-air batteries—in memory of Prof. A. Milchev

Authors: Slavova, M.; Abrashev, B.; Mladenova, E.; Pandev, M.; Mihaylova-Dimitrova, E.

Year: 2024

Citations: 1

Analysis of serum antioxidant activity in women with impaired bone density and effect on it of serum concentrations of copper and zinc

Authors: Tomova, R.; Asenova, S.; Atanasova, L.; Nikolova, M.; Slavova, M.

Year: 2023

Citations: 0

Optimized zinc electrode for rechargeable zinc-air batteries

Authors: Slavova, M.; Abrashev, B.; Mladenova, E.; Burdin, B.; Raikova, G.

Year: 2023

Citations: 0

Investigation of Ni- and Co-Based Bifunctional Electrocatalysts for Carbon-Free Air Electrodes Designed for Zinc-Air Batteries

Authors: Mladenova, E.; Slavova, M.; Abrashev, B.; Burdin, B.; Raikova, G.

Year: 2023

Citations: 31

NEW EVIDENCE FOR FREQUENCY-DEPENDENT PERMITTIVITY RESPONSE OF BIOLOGICAL MATTER PART II: CARBOHYDRATE TESTING BY DIELECTRIC IMPEDANCE SPECTROSCOPY

Authors: Mladenova, E.; Slavova, M.; Dobreva, L.; Kostadinova, O.; Danova, S.

Year: 2023

Citations: 0

NEW EVIDENCE FOR FREQUENCY-DEPENDENT PERMITTIVITY RESPONSE OF BIOLOGICAL MATTER PART I: BOVINE MILK, SOY MILK AND WHEY PROTEIN INVESTIGATION

Authors: Mladenova, E.; Dobreva, L.; Slavova, M.; Kostadinova, O.; Danova, S.

Year: 2022

Citations: 1

Monolithic carbon-free gas diffusion electrodes for secondary metal-air batteries

Authors: Mladenova, E.; Slavova, M.; Mihaylova-Dimitrova, E.; Raikova, G.; Vladikova, D.

Year: 2021

Citations: 10

ELECTROCHEMICAL PROPERTIES OF AN OPTIMIZED GAS-DIFFUSION ELECTRODE (GDE) FOR RECHARGEABLE Zn-AIR BATTERIES

Authors: Abrashev, B.; Slavova, M.; Mladenova, E.; Raikova, G.; Petrov, K.

Year: 2021

Citations: 2

Zeolite based air electrodes for secondary batteries

Authors: Slavova, M.; Mihaylova-Dimitrova, E.; Mladenova, E.; Burdin, B.; Vladikova, D.

Year: 2020

Citations: 11