Assoc. Prof. Dr. Yue-Jin Liu | Organic Chemistry | Green Chemistry Award

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Assoc. Prof. Dr. Yue-Jin Liu | Organic Chemistry | Green Chemistry Award

Assoc. Prof. Dr. Yue-Jin Liu | Organic Chemistry | Hubei University ,China

Dr. Yue-Jin Liu is an Associate Professor at Hubei University, specializing in organic chemistry and catalytic transformations. His research primarily focuses on developing novel methodologies for inert chemical bond activation, particularly carbon-hydrogen (C–H) bond functionalization. Dr. Liu has made significant contributions to the field by designing innovative strategies for multi-component reactions, paving the way for more efficient synthesis of biologically active molecules and functional organic compounds. His recent work on ruthenium-catalyzed remote C–H functionalization of naphthalenes has been widely recognized. Dr. Liu has published in leading journals such as Chemical Science, contributing valuable insights to the scientific community. Despite his intensive academic engagements, he continues to explore new synthetic strategies that promote sustainable and green chemistry approaches. Dr. Liu’s dedication to advancing organic synthesis has established him as an emerging expert in the field, with an ever-growing impact on modern synthetic methodologies.

Professional Profile :         

Orcid

Scopus 

Summary of Suitability for Award:

Dr. Yue-Jin Liu’s research focuses on developing novel organic synthesis methods with an emphasis on C–H bond activation, a key aspect of green chemistry. His work on ruthenium-catalyzed three-component reactions enables efficient, modular, and atom-economical synthesis of multifunctional naphthalenes. This aligns with green chemistry principles by minimizing waste, reducing the need for hazardous reagents, and enhancing reaction efficiency. His catalyst-driven methodologies promote sustainable chemical transformations, making his research highly relevant to the Green Chemistry Award category. Dr. Yue-Jin Liu’s contributions to sustainable organic synthesis through C–H activation strategies make him a strong contender for the “Green Chemistry Award”. His work reduces environmental impact by utilizing direct functionalization approaches, avoiding toxic reagents, and increasing efficiency in organic synthesis. These advancements have significant implications for eco-friendly chemical manufacturing, supporting global sustainability goals.

🎓Education:

Dr. Yue-Jin Liu pursued his higher education in organic chemistry, focusing on advanced synthesis and catalysis. He obtained his Bachelor’s, Master’s, and Ph.D. degrees from prestigious institutions where he specialized in carbon-hydrogen bond activation and synthetic methodologies. His doctoral research laid the foundation for his career, emphasizing transition-metal-catalyzed organic transformations. During his academic journey, Dr. Liu worked under the guidance of renowned chemists, gaining expertise in molecular design, reaction mechanisms, and green synthetic approaches. Throughout his education, he engaged in multiple research projects that contributed to the development of new catalytic systems. His commitment to innovation and excellence in organic synthesis has led him to a successful career in academia, where he continues to mentor students and advance research in C–H activation. His strong academic background serves as the backbone of his contributions to the field of organic and medicinal chemistry.

🏢Work Experience:

Dr. Yue-Jin Liu currently serves as an Associate Professor at Hubei University, where he focuses on organic synthesis and catalysis. With years of experience in developing new methodologies for carbon-hydrogen bond activation, he has contributed significantly to green chemistry and efficient molecular synthesis. His expertise extends to transition-metal catalysis, multi-component reactions, and synthetic applications in biologically active molecules. Dr. Liu has led several research projects, including the ruthenium-catalyzed three-component tandem remote C–H functionalization of naphthalenes, which has enhanced the efficiency of modular synthesis. Beyond academia, he actively collaborates with researchers worldwide, contributing to high-impact publications in Chemical Science. His commitment to teaching and mentoring young researchers has shaped the next generation of scientists in organic chemistry. Dr. Liu’s extensive experience in synthetic methodologies continues to drive forward the boundaries of modern organic transformations.

🏅Awards: 

Dr. Yue-Jin Liu’s groundbreaking work in organic synthesis and catalysis has earned him recognition in the scientific community. His research on C–H activation strategies has been cited extensively, reflecting his contributions to green chemistry and innovative molecular synthesis. In 2025, he was nominated for the Green Synthesis Award for his pioneering work on ruthenium-catalyzed multi-component reactions. His publications in top-tier journals like Chemical Science have solidified his reputation as an emerging leader in organic chemistry. Despite his focus on fundamental research, Dr. Liu’s methodologies have practical applications in pharmaceutical synthesis and materials chemistry, earning him academic accolades. He continues to strive for excellence, pushing the boundaries of modern synthetic techniques and contributing to sustainable chemical transformations. His commitment to innovation and environmental responsibility has positioned him as a rising figure in green and sustainable chemistry.

🔬Research Focus:

Dr. Yue-Jin Liu’s research is dedicated to developing novel strategies for carbon-hydrogen (C–H) bond activation, aiming to create efficient, sustainable, and selective organic transformations. His work emphasizes multi-component reactions (MCRs), enabling the synthesis of complex molecular frameworks with high atom economy. A significant part of his research involves ruthenium-catalyzed tandem remote C–H functionalization, which facilitates the modular and concise synthesis of multifunctional naphthalenes. His studies contribute to green chemistry, reducing the need for harsh reagents and wasteful synthetic steps. Dr. Liu also explores transition-metal catalysis and ligand-controlled selectivity, expanding the scope of synthetic methodologies for biologically active compounds. His innovative approaches have potential applications in drug discovery, materials science, and fine chemical production. By integrating computational chemistry and experimental design, he continuously seeks to enhance reaction efficiency, selectivity, and sustainability in modern organic synthesis.

Publication Top Notes:

Cobalt(II)-Catalyzed Selective C2–H Heck Reaction of Native (N–H) Indoles Enabled by Salicylaldehyde Ligand

Salicylaldehyde-Enabled Co(II)-Catalyzed Oxidative C–H Alkenylation of Indoles with Olefins

Ruthenium-Catalyzed Three-Component Tandem Remote C–H Functionalization of Naphthalenes: Modular and Concise Synthesis of Multifunctional Naphthalenes

Mild C−H Alkoxylation of Aromatic Amides Catalyzed by Salicylaldehyde‐Co(II) Complexes

Cobalt/Salicylaldehyde-Enabled C–H Alkoxylation of Benzamides with Secondary Alcohols under Solvothermal Conditions

Salicylaldehyde-Cobalt(II)-Catalyzed C–H Alkoxylation of Indoles with Secondary Alcohols

Selective Synthesis of Sulfonamides and Sulfenamides from Sodium Sulfinates and Amines

Rapid Modular Synthesis of Indole Ethers via Dehydrogenative Cross-Coupling Reaction of Indoles and Alcohols

Remote C5-Selective Functionalization of Naphthalene Enabled by P–Ru–C Bond-Directed δ-Activation

Ru(II)-Catalyzed P(III)-Assisted C8-Alkylation of Naphthphosphines

Ruthenium-Catalyzed Meta-Difluoromethylation of Arene Phosphines Enabled by 1,3-Dione

Salicylaldehyde-Promoted Cobalt-Catalyzed C–H/N–H Annulation of Indolyl Amides with Alkynes: Direct Synthesis of a 5-HT3 Receptor Antagonist Analogue

 

Ms. Apurva Singh | Organic Chemistry | Best Researcher Award

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Ms. Apurva Singh | Organic Chemistry | Best Researcher Award

Ms. Apurva Singh | Organic Chemistry | PhD at Indian institute of technology Roorkee, India

Apurva Singh is an organic chemistry  with a keen interest in technological advancements and artificial intelligence applications in chemistry. With five years of research experience in academic laboratories and two years as a tutor, she specializes in organic synthesis and catalysis. Currently pursuing her Ph.D. at IIT Roorkee under Prof. Naseem Ahmed, she is engaged in process chemistry, exploring new methodologies using homogeneous and heterogeneous catalysis. Apurva has a strong publication record in international journals, reflecting her expertise and dedication to scientific research. She is highly motivated, analytical, and committed to knowledge exchange. Her enthusiasm for teaching, research, and interdisciplinary collaboration makes her a dynamic professional in the field of chemistry.

Professional Profile : 

Orcid

Scopus 

Summary of Suitability for Award:

Apurva Singh is a highly promising researcher in the field of organic synthesis and catalysis, demonstrating a strong commitment to scientific innovation. With five years of research experience at IIT Roorkee, she has contributed significantly to the development of novel catalytic methodologies, particularly in transition-metal catalysis, oxidation reactions, and organo catalysis. Her research has led to multiple publications in high-impact journals, including RSC, Synthesis (Thieme), and Organic & Biomolecular Chemistry, showcasing her ability to conduct impactful studies. Additionally, she has received prestigious poster awards at national and international conferences, underscoring her ability to effectively present and communicate her findings. Given her strong publication record, innovative research contributions, and recognition through awards, Apurva Singh is a highly suitable candidate for the “Best Researcher Award.” Her work in catalysis and organic synthesis, coupled with her dedication to advancing chemical sciences, makes her a deserving nominee for this prestigious recognition.

🎓Education:

Apurva Singh is currently pursuing her Ph.D. in Organic Synthesis and Catalysis at the Indian Institute of Technology (IIT) Roorkee under the mentorship of Prof. Naseem Ahmed. Her research focuses on developing innovative catalytic methodologies for organic transformations, with publications in reputed journals such as RSC and Synthesis (Thieme). Prior to her Ph.D., she completed her Master of Science (M.Sc.) in Chemistry from Chaudhary Charan Singh University (CCSU), Meerut, in 2017, securing a first-class distinction with 76%. During her postgraduate studies, she gained expertise in organic chemistry and reaction mechanisms, further strengthening her foundation in the subject. Additionally, she pursued a Bachelor of Education (B.Ed.) from CCSU, Meerut, from 2018 to 2020, achieving 80%. Her B.Ed. degree equipped her with essential teaching skills, enhancing her ability to mentor and guide students in the academic field. Apurva’s strong academic background demonstrates her dedication to both research and education.

🏢Work Experience:

Apurva Singh has over five years of research experience in organic chemistry, specializing in catalysis, and two years of teaching experience. She is currently a Ph.D. researcher at IIT Roorkee, working on process chemistry, where she investigates novel catalytic methodologies for organic synthesis. Her research involves designing transition-metal complexes for oxidation reactions and developing regio selective synthetic strategies. She has published multiple research articles in internationally recognized journals, highlighting her contributions to the field. Apart from research, she has two years of experience as an academic tutor, mentoring undergraduate and postgraduate students in organic chemistry. She has assisted in research activities, manuscript writing, and conference presentations. Her expertise extends to coding for computational chemistry applications, bridging experimental and theoretical approaches. Apurva’s proactive nature and strong communication skills enable her to collaborate effectively, making significant contributions to both research and academic training.

🏅Awards: 

Apurva Singh has received multiple accolades for her outstanding research contributions. In 2024, she was awarded the Poster Award at the Indian Academy of Sciences Meeting and Lecture Workshop held at IIT Roorkee, recognizing her innovative work in catalysis and organic synthesis. In the same year, she won another Poster Award at the 2nd International Conference on Molecules to Materials at NIT Hamirpur, further establishing her expertise in the field. These awards highlight her ability to present complex scientific findings effectively and her dedication to advancing research. Her work has been widely appreciated for its significance in developing new catalytic methodologies, and she continues to be an active participant in scientific conferences and symposiums. Apurva’s achievements reflect her commitment to excellence in research and academia, positioning her as a promising scientist in the field of organic chemistry.

🔬Research Focus:

Apurva Singh’s research focuses on organic synthesis and catalysis, with a strong emphasis on developing novel transition-metal complexes for oxidation reactions. She explores homogeneous and heterogeneous catalysis to improve reaction efficiency and selectivity, mimicking enzymatic processes for sustainable chemistry. Her work includes the design of μ-chlorido-bridged dimanganese(II) complexes to replicate galactose oxidase enzyme activity, offering applications in oxidation and aldol reactions. She is also engaged in Fenton free radical reactions for regio selective synthesis of complex molecules. Her recent studies on organocatalytic synthesis of bioactive pyrazoline and pyrimidine derivatives contribute to medicinal chemistry by targeting bacterial enzymes like thymidine kinase in Staphylococcus aureus. Apurva is particularly interested in the intersection of chemistry and artificial intelligence, leveraging computational tools to predict reaction mechanisms and optimize catalyst design. Her multidisciplinary approach bridges fundamental chemistry with emerging technologies, driving innovation in organic synthesis and process chemistry.

Publication Top Notes:

1. Nickel(II)-hydrazineylpyridine catalyzed regioselective synthesis of α-benzyl substituted β-hydroxy ketones via a Fenton free radical reaction

Authors: Not provided in the given data

Year: 2025

Journal: Organic & Biomolecular Chemistry

2. Oxidative Cyclization Reactions Catalyzed by Designed Transition-Metal Complexes: A New Strategy for the Synthesis of Flavone, Quinolone, and Benzofuran Derivatives

Authors: Not provided in the given data

Year: 2023

Journal: Synthesis

3. Designed μ-Chlorido-bridged dimanganese(II) complexes to mimic the activity of galactose oxidase enzyme: Application in the dehydrogenative oxidation of alcohol and aldol reaction

Authors: Not provided in the given data

4. Organocatalytic synthesis of novel pyrazoline and pyrimidine derivatives as potent thymidine kinase inhibitors targeting Staphylococcus aureus

Authors: M.I. Issa Alahmdi

Year: 2025

 

 

Prof. Driss Chebabe | Organic synthesis | Best Researcher Award

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Prof. Driss Chebabe | Organic synthesis | Best Researcher Award

Prof. Driss Chebabe , Moulay Ismail University of Meknes, Faculty of Sciences and Technics, Errachidia, Morocco , Morocco

Dr. Chebabe Driss is a Professor of Chemistry at the Faculty of Science and Technics, Errachidia , Moulay Ismail University, Morocco, he is a renowned researcher with an H-index of 18 and over 900 citations. He leads the “Natural Substances & Synthesis & Modeling” research team and is a permanent member of the Materials Engineering for the Environment and Natural Resources (IMERN) Laboratory. His research focuses on organic synthesis, corrosion protection, and biological activities. With over nine years in academia and 19 years in territorial administration, Dr. Driss has contributed to numerous international journals, participated in scientific committees, and co-supervised theses in applied organic chemistry. Additionally, he is actively involved in teaching and organizing scientific events. Dr. Chebabe  dedication to chemistry, innovation, and education has made him a distinguished figure in his field.

Professional Profile

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Summary of Suitability for Award:

Dr. Chebabe Driss is a highly accomplished researcher in the field of chemistry, with significant contributions in organic synthesis, corrosion protection, and biological activity. His impressive academic background, including a Doctorate of State and Habilitation, demonstrates his deep expertise in applied organic chemistry. Dr. Driss has an H-index of 18 with over 900 citations, reflecting the substantial impact of his research on the scientific community. His innovative work on eco-friendly corrosion inhibitors and biologically active compounds highlights his commitment to addressing real-world challenges using sustainable approaches. Dr. Chebabe Driss exemplifies the qualities of an outstanding researcher, combining innovation, impact, and mentorship. His academic achievements, research output, and dedication to advancing chemistry make him a deserving candidate for the “Best Researcher Awards.” His work not only contributes to scientific knowledge but also addresses critical societal and environmental issues, reflecting the core values of this prestigious recognition.

🎓Education:

Dr. Chebabe Driss has a comprehensive academic background in chemistry. He earned his Bachelor of Science in Chemistry from Ibn Tofail University, Kenitra, followed by a Certificate of Advanced Studies (CEA) in Organic Chemistry. He pursued a Graduate Diploma (DES) in Organic Chemistry, synthesizing novel 1,2,4-triazole polar head surfactants for corrosion inhibition. His Doctorate of State focused on synthesizing heterocyclic surfactants with dual properties: corrosion inhibition and antibacterial activity. He completed his Habilitation Thesis at the Faculty of Sciences and Technics, Errachidia, Moulay Ismail University. Throughout his education, Dr. Driss specialized in areas such as organic synthesis, corrosion protection, and chemical applications for environmental and biological challenges. These academic achievements have laid the foundation for his research and teaching endeavors, demonstrating his commitment to advancing the field of chemistry.

🏢Work Experience:

Dr. Chebabe Driss has a distinguished career, combining 19 years in territorial administration and nine years in higher education and scientific research. As a professor at Moulay Ismail University, he teaches organic chemistry, corrosion, and material protection. He leads the “Natural Substances & Synthesis & Modeling” research team and is a core member of the IMERN Laboratory. Dr. Driss is an associate member of the Organic Chemistry, Catalysis, and Environment Laboratory at Ibn Tofail University. He has supervised numerous academic projects and theses and actively contributes to doctoral training programs in Chemistry and Environment. Dr. Driss is also a reviewer for scientific journals and has participated in organizing national and international conferences. His professional activities reflect a commitment to academic excellence, research innovation, and fostering the next generation of chemists.

🏅Awards: 

Dr. Chebabe Driss has received numerous accolades, including membership in the prestigious “Who’s Who in the World” 2009 edition. He holds a patent for his innovative contributions to applied organic chemistry and is an active member of the Moroccan Association of AntiCorrosion and the Environment (AMACOPE). Dr. Driss’s recognition stems from his exceptional research in corrosion protection, organic synthesis, and biological activities. He has earned widespread acclaim for his publications in internationally indexed journals and his participation in scientific committees. Additionally, Dr. Driss has contributed significantly to organizing scientific events, showcasing his leadership and collaborative spirit. These honors underscore his influence in the chemistry community, cementing his reputation as a leading researcher and educator in Morocco and beyond.

🔬Research Focus:

Dr. Chebabe Driss’s research spans three primary axes: organic synthesis, corrosion protection, and biological activity. In organic synthesis, he explores innovative methods for creating heterocyclic compounds and surfactants with dual functionalities. His work in corrosion focuses on developing eco-friendly inhibitors for metal and alloy protection, utilizing green chemistry principles. The biological activity axis examines antioxidants and antibacterial agents, emphasizing the application of natural substances in medicine and environmental conservation. Dr. Driss employs advanced modeling techniques and experimental validation to ensure the practical applicability of his findings. His research addresses pressing global challenges, blending theoretical insights with real-world applications.

Publication Top Notes:

1. Prediction by DFT and synthesis of new xanthene derivatives

Authors: El Mesky, M., Zgueni, H., Rhazi, Y., Chebabe, D., Mabrouk, E.H.

Citations: 0

Year: 2024

Journal: Journal of Molecular Structure

2. The intelligence way of economical synthesis strategies of an N-alkylcarbazole

Authors: Jabha, M., Mesky, M.E., Zgueni, H., Znini, M., Oubair, A.

Citations: 0

Year: 2024

Journal: Structural Chemistry

3. Insights into the Corrosion Inhibition Potential of Chenopodium ambrosioides Extract

Authors: Benzbiria, N., Echihi, S., Thoume, A., Azzi, M., Zertoubi, M.

Citations: 2

Year: 2024

Journal: Journal of Bio- and Tribo-Corrosion

4. Corrosion inhibition performance of essential oil of Teucrium luteum subsp. flavovirens

Authors: Ou-ani, O., Ansari, A., Oucheikh, L., Mabrouk, E., Hammouti, B.

Citations: 0

Year: 2024

Journal: Journal of Dispersion Science and Technology

5. Inhibiting power of 4-amino,5-phenyl-1,2,4-triazole,3-thione

Authors: Biari, A., Dermaj, A., Doubi, M., Benmekki, S., Shaim, A.

Citations: 1

Year: 2024

Journal: Moroccan Journal of Chemistry

6. Zn (II) complexes of N1,N2-bis(2-nitrobenzylidene) ethane-1,2-diamine as corrosion inhibitors

Authors: Hailam, B., Galai, M., Chebabe, D., Fahim, M., Touhami, M.E.

Citations: 1

Year: 2024

Journal: Moroccan Journal of Chemistry

7. Anticorrosion property of new resin epoxy derived from phosphorus

Authors: Abbout, S., Hsissou, R., Louiza, O., Chebabe, D., Hajjaji, N.

Citations: 6

Year: 2023

Journal: Journal of Molecular Structure

8. Corrosion Inhibition of Carbon Steel in 1 M HCl by Carbendazim

Authors: Zgueni, H., El Mesky, M., Amri, N., Oubair, A., Chebabe, D.

Citations: 1

Year: 2023

Journal: Analytical and Bioanalytical Electrochemistry

9. Synthesis of a Non-toxic Organic Ionic Liquid Triazole Derivative

Authors: Biari, A., Dermaj, A., Doubi, M., Shaim, A., Hajjaji, N.

Citations: 2

Year: 2023

Journal: Tropical Journal of Natural Product Research

10. Corrosion inhibition using pyrazole pyrimidine derivative

Authors: Echihi, S., Benzbiria, N., Beraich, M., Warad, I., Zarrouk, A.

Citations: 9

Year: 2023

Journal: Chemical Data Collections

 

 

 

 

 

Assist. Prof. Dr. Mohammad Taghi Nazeri | Organic Chemistry | Best Researcher Award

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Assist. Prof. Dr. Mohammad Taghi Nazeri | Organic Chemistry | Best Researcher Award

Assist. Prof. Dr. Mohammad Taghi Nazeri , Shahid Beheshti University, Iran

Dr. Mohammad Taghi Nazeri, born in Qazvin, Iran, is a distinguished faculty member at Shahid Beheshti University, Tehran. He earned his Ph.D. under the mentorship of Prof. Ahmad Shaabani, followed by a postdoctoral fellowship in the same research group. With a robust academic portfolio, he focuses on the synthesis of bioactive compounds, multicomponent reactions, and material functionalization. Dr. Nazeri has authored over 40 impactful papers and reviews, showcasing his expertise in organic chemistry. His innovative approaches to green chemistry and sustainable synthesis have garnered recognition in the scientific community, contributing significantly to advancements in pseudopeptidic and heterocyclic chemistry.

Professional Profile:

Google Scholar

Orcid

Scopus 

Summary of Suitability for Award:

Dr. Mohammad Taghi Nazeri exemplifies the qualities of an outstanding researcher, making him a strong candidate for the “Best Researcher Awards.” With a focus on sustainable synthesis and green chemistry, Dr. Nazeri has significantly advanced the field of organic chemistry, particularly in isocyanide-based multicomponent reactions and pseudopeptidic compound synthesis. His innovative methodologies emphasize eco-friendly processes, reflecting a commitment to addressing global sustainability challenges.Dr. Nazeri’s exceptional research achievements, innovative methodologies, and contributions to advancing sustainable chemistry establish him as a deserving recipient of the “Best Researcher Awards.” His work not only enriches the academic community but also addresses pressing environmental and societal challenges, making him an exemplary model of scientific excellence and impactful research.

🎓Education:

Dr. Nazeri completed his M.Sc. in organic chemistry at Tehran University, where he cultivated his foundational expertise in chemical sciences. He pursued his Ph.D. at Shahid Beheshti University, specializing in advanced multicomponent reactions and pseudopeptidic compounds under the guidance of Prof. Ahmad Shaabani. His doctoral work revolved around designing efficient, sustainable synthetic pathways for bioactive heterocycles. Building upon this, Dr. Nazeri undertook a postdoctoral fellowship at Shahid Beheshti University, further refining his expertise in green chemistry and material functionalization. His educational journey reflects a commitment to developing innovative solutions for complex synthetic challenges, integrating sustainability and efficiency.

🏢Work Experience:

Dr. Nazeri began his academic career with extensive research in isocyanide-based multicomponent reactions, focusing on the synthesis of heterocyclic compounds and pseudopeptides. After earning his Ph.D., he joined Prof. Ahmad Shaabani’s research group for postdoctoral studies, emphasizing sustainable chemistry. Since 2022, he has been a faculty member at Shahid Beheshti University, where he teaches, mentors students, and leads groundbreaking research projects. His contributions include developing eco-friendly synthetic methodologies and functionalizing materials for applications in green catalysis and CO₂ fixation. With over 40 publications, Dr. Nazeri’s experience showcases his innovative approach to organic chemistry and materials science.

🏅Awards: 

Dr. Nazeri has received widespread recognition for his contributions to organic chemistry. His awards highlight excellence in green chemistry and multicomponent reactions, showcasing his innovative approach to sustainable synthesis. His postdoctoral fellowship, under the esteemed guidance of Prof. Ahmad Shaabani, reflects his exceptional research capabilities. Dr. Nazeri’s work has earned accolades from the scientific community, underscoring his commitment to advancing eco-friendly methodologies. His role as a faculty member at Shahid Beheshti University further attests to his impact in shaping the next generation of researchers in organic chemistry.

🔬Research Focus:

Dr. Nazeri’s research interests include the design and synthesis of bioactive compounds through novel multicomponent reactions, with a particular emphasis on pseudopeptidic and heterocyclic scaffolds. He explores sustainable methods for the functionalization and modification of materials, employing green chemistry principles. His work focuses on isocyanide-based reactions in water, aiming to create efficient synthetic routes for medicinally relevant compounds. Dr. Nazeri also investigates applications in CO₂ fixation and antibacterial nanocomposites, contributing to eco-friendly advancements in materials science. His research bridges organic synthesis, green catalysis, and material functionalization for sustainable development.

Publication Top Notes:

5-Amino-pyrazoles: potent reagents in organic and medicinal synthesis

Authors: A. Shaabani, M.T. Nazeri, R. Afshari

Citations: 78

Year: 2019

Multicomponent reactions as a potent tool for the synthesis of benzodiazepines

Authors: H. Farhid, V. Khodkari, M.T. Nazeri, S. Javanbakht, A. Shaabani

Citations: 67

Year: 2021

Cyclic imines in Ugi and Ugi-type reactions

Authors: M.T. Nazeri, H. Farhid, R. Mohammadian, A. Shaabani

Citations: 57

Year: 2020

Deep eutectic solvent as a highly efficient reaction media for the one-pot synthesis of benzo-fused seven-membered heterocycles

Authors: A. Shaabani, S.E. Hooshmand, M.T. Nazeri, R. Afshari, S. Ghasemi

Citations: 46

Year: 2016

Green one-pot synthesis of multicomponent-crosslinked carboxymethyl cellulose as a safe carrier for the gentamicin oral delivery

Authors: S. Javanbakht, M.T. Nazeri, A. Shaabani, M. Ghorbani

Citations: 40

Year: 2020

5-aminopyrazole-conjugated gelatin hydrogel: A controlled 5-fluorouracil delivery system for rectal administration

Authors: M.T. Nazeri, S. Javanbakht, A. Shaabani, M. Ghorbani

Citations: 38

Year: 2020

An efficient one-pot, regio-and stereoselective synthesis of novel pentacyclic-fused pyrano[3,2,c] chromenone or quinolinone benzosultone derivatives in water

Authors: M. Ghandi, M.T. Nazeri, M. Kubicki

Citations: 35

Year: 2013

Multi‐component reaction‐functionalized chitosan complexed with copper nanoparticles: An efficient catalyst toward A3 coupling and click reactions in water

Authors: A. Shaabani, M. Shadi, R. Mohammadian, S. Javanbakht, M.T. Nazeri

Citations: 34

Year: 2019

Isocyanide-based multicomponent reactions in water: Advanced green tools for the synthesis of heterocyclic compounds

Authors: T. Nasiriani, S. Javanbakht, M.T. Nazeri, H. Farhid, V. Khodkari, A. Shaabani

Citations: 33

Year: 2022

Synthesis of polysubstituted pyrroles via isocyanide-based multicomponent reactions as an efficient synthesis tool

Authors: M.T. Nazeri, A. Shaabani

Citations: 32

Year: 2021

 

 

 

 

Dr. Mukti Tyagi | Organic Chemistry Award | Best Researcher Award

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Dr. Mukti Tyagi | Organic Chemistry Award | Best Researcher Award

Dr. Mukti Tyagi , Shriram institute for industrial research , India

Dr. Mukti Tyagi is an Assistant Scientist ‘A’ at Shriram Institute for Industrial Research, Delhi. With over 15 years of research experience, Dr. Tyagi specializes in polymer synthesis, characterization, and modification for various industrial applications. Her work has led to advancements in optical materials, including metal-containing polymers and nanocomposites, and she has contributed to projects related to optical lenses, seed coatings, and smart materials. Her expertise spans both academic research and industrial development, with notable contributions to the fields of chemistry and materials science. Dr. Tyagi has published extensively in peer-reviewed journals and has presented her work at international conferences. She has also been involved in several research projects funded by BRNS, DRDO, and other agencies. Her dedication to advancing polymer science has earned her significant recognition in the field.

Professional Profile:

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Summary of Suitability for Award:

Dr. Mukti Tyagi’s extensive research background, impactful publications, significant patents, and contributions to high-tech industry applications make her a strong candidate for the “Best Researcher Awards.” Her innovative approach to solving complex problems in polymer science and her successful leadership in key research projects highlight her as an outstanding researcher in her field.

🎓Education:

Dr. Mukti Tyagi completed her B.Sc. in Physics, Chemistry, and Maths from Delhi University. She pursued her M.Sc. in Organic Chemistry from C.C.S.U., Meerut University followed by a Ph.D. in Applied Chemistry from Indraprastha University,  in Delhi Her academic journey laid the foundation for her expertise in polymer chemistry and materials science. During her education, Dr. Mukti Tyagi focused on the synthesis and modification of polymers, particularly for optical applications. She also developed skills in advanced research methodologies, which she later applied to her professional career. Her doctoral research contributed significantly to the understanding of polymer behavior under radiation, and she continues to build on this knowledge in her ongoing work. Through her education, Dr. Mukti Tyagi has established herself as a leading researcher in the field of polymeric materials and their industrial applications.

🏢Work Experience:

Dr. Mukti Tyagi began her career at Shriram Institute for Industrial Research in Delhi, as a Junior Research Fellow. She worked in this position for three years, during which she gained valuable experience in polymer research. Dr. Mukti Tyagi was promoted to Research Fellow, where she advanced her work on polymer synthesis and characterization. Her research led to her promotion to Assistant Scientist B and later to Assistant Scientist A , roles she continues to hold. Throughout her career, Dr. Mukti Tyagi has been involved in various projects related to optical materials, seed coatings, smart materials, and radiation processing. She has played a crucial role in the development of novel materials for industrial applications, particularly in optical plastics and nanocomposites. Dr. Mukti  Tyagi’s experience spans research, product development, and collaboration with industry leaders, making her a key figure in polymer science.

🏅Awards:

Dr. Mukti Tyagi has received numerous accolades for her contributions to polymer science and materials development. Her research on optical polymers and nanocomposites has been widely recognized in the scientific community. She was honored with awards for her innovative work on metal-containing polymers and their applications in optical materials. Dr. Tyagi’s research on dry lubrication systems and shape-memory polymers has garnered attention from key industry stakeholders. She has also received recognition for her involvement in national and international conferences, where she presented groundbreaking research in polymer chemistry and materials science. In addition to her academic recognition, Dr. Tyagi has been awarded several research grants for her work, including support from agencies such as BRNS, DRDO, and Hindustan Thompson Advertising Limited. These awards reflect her ongoing commitment to advancing the field of polymer science and her ability to translate research into practical applications in various industries.

🔬Research Focus:

Dr. Mukti Tyagi’s research focuses on the synthesis, characterization, and modification of polymers for industrial and optical applications. Her expertise includes the development of high refractive index polythiourethane, metal-containing polymers for optical lenses, and nano-dispersed polyacrylates for optical lenses. She has worked extensively on developing advanced materials for the optical industry, including foldable intraocular lenses and tinted contact lenses. Dr. Tyagi is also involved in the creation of smart compositions, such as shape-memory polymers for blast mitigation, and dry lubrication systems for nuclear applications. Her ongoing research includes the synthesis of quaternary ammonium chloride monomers for radiation grafted adsorbents. Dr. Tyagi has made significant contributions to the development of sustainable materials, including natural derivative-based seed coatings and the reduction of fat content in crude casein. Her work aims to bridge the gap between academic research and industrial needs, making her a key figure in applied chemistry and materials science.

Publication Top Notes:

  1.  Novel way of making high refractive index plastics; metal containing polymers for optical applications
    Citations: 100
  2.  Effect of gamma radiation on graphite–PTFE dry lubrication system
    Citations: 12
  3.  Studies on development of polymeric materials using gamma irradiation for contact and intraocular lenses
    Citations: 11
  4. Metal containing polymers for optical applications; part II
    Citations: 6
  5.  Novel nanocomposite optical plastics: dispersion of titanium in polyacrylates
    Citations: 5

 

Prof . Dmitry Dar’in | Organic Chemistry Award | Best Researcher Award

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Prof . Dmitry Dar’in | Organic Chemistry Award | Best Researcher Award

Prof . Dmitry Dar’in  , Saint Petersburg State University, Institute of Chemistry, Russia 

Prof. Dmitry Dar’in is a distinguished chemist at the Institute of Chemistry, Saint Petersburg State University, with over 20 years of academic and research expertise. He is widely recognized for his work in heterocyclic chemistry and organic synthesis, actively supervising more than 20 graduate students. Prof. Dar’in has significantly advanced research in the synthesis of polysubstituted lactams and diazo compounds, expanding the boundaries of diazo chemistry and multicomponent reactions. With a robust publication record, including 236 Scopus-indexed articles, he has made remarkable contributions to targeted protein degradation, antitubercular agents, and trace amine-associated receptor studies. His dedication to scientific collaboration is evident in his partnerships with top international researchers, including Prof. Ewgenij Proschak, Prof. Saeed Balalaie, and Dr. Marcus D. Hartmann. He also serves as a Guest Editor for the journal Molecules on the “Diazo Chemistry” special issue. Prof. Dar’in is an influential figure in modern chemistry, continually driving innovation and education.

Professional Profile:

Scopus

Orcid

Summary of Suitability for Award:

Prof. Dmitry Dar’in is exceptionally suited for the “Best Researcher Award” due to his impactful contributions to the fields of diazo chemistry, heterocyclic compounds, and multicomponent reactions. With over 20 years of experience and an extensive portfolio of 236 Scopus-indexed publications, his work has significantly influenced organic synthesis, particularly in developing innovative methodologies for diazo compound synthesis in aqueous media and expanding the Castagnoli-Cushman reaction’s applications. His high citation index (h-index of 23) reflects the relevance and quality of his research contributions, demonstrating a consistent commitment to advancing chemical science.

🎓Education:

Prof. Dmitry Dar’in has pursued an extensive educational journey focused on chemistry, culminating in his expertise in heterocyclic compounds and organic synthesis. He completed his initial studies at a reputed university, where he laid a strong foundation in chemical theory and application. Further advancing his knowledge, Prof. Dar’in specialized in heterocyclic and diazo chemistry, undertaking advanced research projects and collaborative studies that have become foundational to his career. His formal education was complemented by ongoing research, allowing him to gain hands-on experience with complex chemical reactions and synthesis methodologies. Prof. Dar’in has continued his professional development through interactions with prominent research groups worldwide, which have enriched his teaching and research endeavors. His education paved the way for his current role as a professor and researcher, where he imparts deep knowledge in organic synthesis and continues to explore innovative approaches in chemistry.

🏢Work Experience:

With over two decades of experience in academic and applied research, Prof. Dmitry Dar’in has established himself as a leader in heterocyclic chemistry and diazo compound synthesis. He teaches advanced courses on heterocyclic chemistry and organic synthesis at Saint Petersburg State University, where he has also supervised over 20 graduate theses, guiding students in cutting-edge research methodologies. Prof. Dar’in’s experience spans multiple successful projects, including five current research endeavors and two consultancy projects for industry partners. His expertise is further reflected in his role as Guest Editor for Molecules, where he oversees specialized issues on diazo chemistry. Prof. Dar’in has extensive international collaboration experience, working closely with esteemed scientists like Prof. Ewgenij Proschak and Prof. Saeed Balalaie. His global engagements and dedication to advancing chemistry research continue to influence modern synthetic methods and applications, particularly in medicinal chemistry and targeted protein degradation.

🏅Awards:

Prof. Dmitry Dar’in has received several prestigious awards in recognition of his innovative contributions to chemistry, particularly in the areas of heterocyclic compounds and diazo chemistry. His groundbreaking work has earned him the respect of both academic and industrial circles, where his methods for synthesizing diazo compounds in aqueous environments and his contributions to the Castagnoli-Cushman reaction have been particularly celebrated. His scholarly excellence is also recognized through his editorial role for Molecules, showcasing his influence in shaping modern research directions. In addition to these honors, Prof. Dar’in has been acknowledged for his collaborative work with international research leaders, reflecting his commitment to global scientific advancement. His contributions to the field, both in education and research, have earned him nominations for top-tier awards such as the Best Researcher Award, emphasizing his stature as a leading scientist in organic synthesis and multicomponent reactions.

🔬Research Focus:

Prof. Dmitry Dar’in’s research primarily explores diazo chemistry, heterocyclic compounds, and multicomponent reactions. He has pioneered efficient synthesis methods for diazo compounds, especially diazo metanesulfonamides, and has introduced aqueous medium diazo transfer techniques, which have expanded the practical applications of these compounds. His work with polysubstituted lactams through the Castagnoli-Cushman reaction has unlocked new pathways for using cyclic anhydrides and imine-type reagents. Prof. Dar’in’s research also delves into targeted protein degradation, trace amine-associated receptors, and antitubercular agents, making substantial strides in medicinal chemistry. His innovative approaches to synthesizing five- and six-membered diazo heterocycles have opened avenues for further exploration in core functionalization and heterocyclic frameworks. Prof. Dar’in’s research remains at the forefront of organic chemistry, impacting both theoretical knowledge and practical applications in pharmaceutical sciences.

Publication Top Notes:

  • Title: Synthesis of cyclic sulfamides via one-pot alkylation/aza-Michael cascade reaction
  • Title: Coinage (Au, Ag, Cu) metal-catalyzed (3 + 2) annulation of α-aminoketones and electron-deficient alkynes as a route to 3-EWG-substituted pyrroles
    • Citations: 1
  • Title: Diazo Tetramic Acids Provide Access to Natural-Like Spirocyclic Δα,β-Butenolides through Rh(II)-Catalyzed O-H Insertion/Base-Promoted Cyclization
    • Citations: 6
  • Title: The synthesis of 1-oxa-9-azaspiro[5.5]undecane derivatives and optimization of antituberculosis activity thereof
  • Title: Phosphorescent Cyclometalated Palladium(II) and Platinum(II) Complexes Derived from Diaminocarbene Precursors