Itamar Willner | Medicinal Chemistry | Excellence in Research Award

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Prof. Itamar Willner | Medicinal Chemistry | Excellence in Research Award

Professor from The Hebrew University of Jerusalem, Israel

Professor Itamar Willner is a distinguished Israeli chemist renowned for his pioneering contributions to supramolecular chemistry, nanotechnology, and nanobiotechnology. Born in January 1947, he has been a faculty member at the Hebrew University of Jerusalem since 1981 and was appointed as a full professor in 1986. His research has significantly advanced the understanding and application of molecular self-assembly, DNA nanotechnology, and bio-hybrid systems. With over 890 scientific publications and more than 100,000 citations, Professor Willner is among the most cited chemists globally, reflecting the profound impact of his work on the scientific community. His innovative approaches have led to the development of DNA-based molecular machines, logic gates, and dynamic networks, bridging the gap between chemistry, biology, and materials science. Throughout his career, he has received numerous prestigious awards, including the Israel Prize in Chemistry, the Rothschild Prize, and the EMET Prize, acknowledging his exceptional contributions to science. Professor Willner’s leadership extends beyond research; he has played pivotal roles in various scientific committees and editorial boards, fostering international collaborations and mentoring the next generation of scientists. His work continues to influence diverse fields, from artificial photosynthesis to smart materials, underscoring his status as a leading figure in contemporary chemistry.

Professional Profile

Education

Professor Willner’s academic journey commenced with a B.Sc. in Chemistry and Physics from the Hebrew University of Jerusalem, completed with distinction. He further pursued an M.Sc. in Chemistry at the same institution, again graduating with distinction. In 1978, he earned his Ph.D. in Physical Organic Chemistry from the Hebrew University, presenting a thesis titled “Novel Series of Polycyclic Aromatic Ions: Aromaticity Structure Relationships,” which was approved summa cum laude. Following his doctoral studies, Professor Willner undertook postdoctoral research at the University of California, Berkeley, from 1978 to 1980, working under the mentorship of Professor Melvin Calvin. This period was instrumental in shaping his future research directions, particularly in the realms of photochemistry and molecular electronics. His comprehensive educational background laid a robust foundation for his subsequent groundbreaking work in chemistry, enabling him to integrate principles from various sub-disciplines and pioneer interdisciplinary research approaches. The rigorous training and diverse academic experiences he acquired during his formative years have been pivotal in his development as a leading scientist in the field.

Professional Experience

Professor Willner’s professional career is marked by a series of esteemed academic and research positions. After completing his postdoctoral fellowship at UC Berkeley, he served as a Staff Scientist and Adjunct Assistant Professor at the same institution from 1980 to 1981. In 1981, he returned to the Hebrew University of Jerusalem as a Senior Lecturer in the Institute of Chemistry. His academic progression continued with his promotion to Associate Professor in 1983 and subsequently to Full Professor in 1986, a position he holds to this day. Beyond his teaching and research responsibilities, Professor Willner has held several significant administrative roles, including Head of the Institute of Chemistry and Chairman of the Natural Sciences Division of the Israel Academy of Sciences and Humanities. He has also been an active member of numerous scientific advisory boards and editorial committees, contributing to the advancement of chemical sciences globally. His professional journey reflects a steadfast commitment to scientific excellence, education, and leadership within the academic community.

Research Interests

Professor Willner’s research interests are deeply rooted in the exploration of supramolecular chemistry, nanotechnology, and biomolecular systems. His work focuses on the design and synthesis of functional nanostructures, particularly those involving DNA nanotechnology, nanoenzymes, and stimuli-responsive materials. He has been instrumental in developing DNA-based molecular machines and logic gates, contributing to the field of molecular computing. His research extends to the construction of bio-nano hybrid systems, integrating biomacromolecules with inorganic nanoparticles to create novel catalytic and sensing platforms. Additionally, Professor Willner has investigated artificial photosynthesis, aiming to mimic natural energy conversion processes for sustainable applications. His interdisciplinary approach combines principles from chemistry, biology, and materials science, leading to innovations in drug delivery systems, biosensors, and smart materials. Through his extensive research, he continues to push the boundaries of molecular design and functional material development.

Research Skills

Professor Willner possesses a diverse set of research skills that have enabled him to make significant contributions to the field of chemistry. His expertise includes the synthesis and characterization of supramolecular assemblies, development of DNA-based nanostructures, and fabrication of bio-nano hybrid systems. He is proficient in employing various spectroscopic and electrochemical techniques to analyze the properties and behaviors of complex molecular systems. His skills extend to the design of molecular machines and logic devices, leveraging the unique properties of nucleic acids and proteins. Furthermore, Professor Willner is adept at integrating biological components with inorganic materials to create functional interfaces for sensing and catalytic applications. His ability to navigate and combine multiple scientific disciplines has been crucial in advancing research in nanobiotechnology and molecular electronics. These competencies have not only facilitated his own research endeavors but have also positioned him as a mentor and leader in the scientific community.

Awards and Honors

Throughout his illustrious career, Professor Willner has received numerous awards and honors recognizing his outstanding contributions to science. Notably, he was awarded the Israel Prize in Chemistry in 2002, one of the country’s highest honors. His accolades also include the Rothschild Prize in Chemistry (2008), the EMET Prize in Chemistry (2008), and the Max Planck Research Award for International Cooperation (1998). He has been elected as a Fellow of the American Association for the Advancement of Science (1996) and the Royal Society of Chemistry (2009). His membership in prestigious academies includes the Israel Academy of Sciences and Humanities (2002), the European Academy of Sciences and Arts (2004), and the German National Academy of Sciences Leopoldina (2009). These honors reflect his significant impact on the scientific community and his role in advancing chemical research on a global scale.

Conclusion

Professor Itamar Willner’s career embodies the pinnacle of scientific achievement and innovation. His extensive research in supramolecular chemistry, nanotechnology, and biomolecular systems has not only expanded the frontiers of chemical science but has also paved the way for practical applications in medicine, energy, and materials science. His interdisciplinary approach and ability to integrate complex systems have resulted in groundbreaking developments, such as DNA-based molecular machines and artificial photosynthetic systems. Beyond his research, Professor Willner’s commitment to education and mentorship has cultivated a new generation of scientists, further amplifying his impact. His numerous awards and memberships in esteemed scientific academies underscore the global recognition of his contributions. As a leading figure in contemporary chemistry, Professor Willner continues to inspire and drive innovation, solidifying his legacy as a pioneer and visionary in the scientific community.

Publications Top Notes

  • Title: Integrated nanoparticle–biomolecule hybrid systems: synthesis, properties, and applications
    Authors: E. Katz, I. Willner
    Journal: Angewandte Chemie International Edition 43(45), 6042–6108
    Citations: 3189
    Year: 2004

  • Title: Nanoparticle arrays on surfaces for electronic, optical, and sensor applications
    Authors: A.N. Shipway, E. Katz, I. Willner
    Journal: ChemPhysChem 1(1), 18–52
    Citations: 3175
    Year: 2000

  • Title: Probing biomolecular interactions at conductive and semiconductive surfaces by impedance spectroscopy: routes to impedimetric immunosensors, DNA‐sensors, and enzyme biosensors
    Authors: E. Katz, I. Willner
    Journal: Electroanalysis
    Citations: 1648
    Year: 2003

  • Title: “Plugging into enzymes”: Nanowiring of redox enzymes by a gold nanoparticle
    Authors: Y. Xiao, F. Patolsky, E. Katz, J.F. Hainfeld, I. Willner
    Journal: Science 299(5614), 1877–1881
    Citations: 1520
    Year: 2003

  • Title: Diverse applications of nanomedicine
    Authors: B. Pelaz, C. Alexiou, R.A. Alvarez-Puebla, F. Alves, A.M. Andrews, S. Ashraf, …
    Journal: ACS Nano 11(3), 2313–2381
    Citations: 1381
    Year: 2017

  • Title: Integration of layered redox proteins and conductive supports for bioelectronic applications
    Authors: I. Willner, E. Katz
    Journal: Angewandte Chemie International Edition 39(7), 1180–1218
    Citations: 1309
    Year: 2000

  • Title: Biomolecule‐functionalized carbon nanotubes: applications in nanobioelectronics
    Authors: E. Katz, I. Willner
    Journal: ChemPhysChem 5(8), 1084–1104
    Citations: 1089
    Year: 2004

  • Title: Semiconductor quantum dots for bioanalysis
    Authors: R. Gill, M. Zayats, I. Willner
    Journal: Angewandte Chemie International Edition 47(40), 7602–7625
    Citations: 1026
    Year: 2008

  • Title: Electronic aptamer‐based sensors
    Authors: I. Willner, M. Zayats
    Journal: Angewandte Chemie International Edition 46(34), 6408–6418
    Citations: 912
    Year: 2007

  • Title: Electroanalytical and bioelectroanalytical systems based on metal and semiconductor nanoparticles
    Authors: E. Katz, I. Willner, J. Wang
    Journal: Electroanalysis
    Citations: 912
    Year: 2004

Yaojia Jiang | Organic Chemistry | Best Researcher Award

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Mr. Yaojia Jiang | Organic Chemistry | Best Researcher Award

Professor from Guizhou University, China

Yaojia Jiang is an accomplished chemist with a strong academic and research background in radical chemistry, carbene and nitrene chemistry, and biological sciences. His academic journey showcases steady growth under the mentorship of highly respected scholars and at leading institutions. After earning his Master’s degree at Soochow University in 2010, he pursued a Ph.D. at Nanyang Technological University, completing it in 2014. During his doctoral studies, he specialized in carbene and nitrene transformations, a highly significant area of research with broad applications in organic synthesis. Jiang then expanded his expertise through postdoctoral work in biological sciences, which added a multidisciplinary dimension to his research profile. His independent career began in 2015 at Nanjing Tech University, focusing on carbene transformations, and later advanced at Guizhou University, where his work centers on modular single-carbon insertion reactions and sustainable pesticide development. His research combines fundamental chemistry with applications that address real-world problems, particularly in agriculture and green chemistry. Yaojia Jiang’s career path highlights not only technical expertise but also innovation, adaptability, and an ongoing commitment to sustainability and atom-economical processes. His diverse experiences position him as a leading figure in advancing chemical sciences in environmentally conscious ways.

Professional Profile

Education

Yaojia Jiang’s educational journey reflects strong academic foundations and strategic specialization in areas of growing scientific importance. He earned his Master’s degree in 2010 from Soochow University under the supervision of Professor Jian-Ping Zou, specializing in radical chemistry. This early focus provided him with a rigorous understanding of reactive intermediates and set the stage for his future contributions to the field. In 2014, he completed his Ph.D. at Nanyang Technological University (NTU) in Singapore, one of Asia’s leading research institutions. His doctoral research, supervised by Professors Cheol-Min Park and Teck-Peng Loh, delved into the chemistry of carbenes and nitrenes, reactive species crucial in modern organic synthesis. His Ph.D. work significantly enhanced his expertise in reaction mechanisms and synthetic methods, skills essential for high-level chemical innovation. Jiang’s educational experiences at two prominent institutions, combined with mentorship from globally respected scientists, provided him with both theoretical depth and practical skills. His academic background was further diversified through postdoctoral research in biological sciences, broadening his interdisciplinary knowledge and positioning him well for independent research that bridges chemistry and applied life sciences.

Professional Experience

Yaojia Jiang began his independent academic career shortly after completing his postdoctoral studies. In 2015, he joined Nanjing Tech University, where he focused on carbene transformations, contributing important research on highly reactive intermediates and their controlled manipulation for synthetic applications. His early years as an independent researcher showcased a rapid transition from trainee to research leader, reflecting his ability to design, lead, and execute complex chemical research projects. Subsequently, Jiang moved to Guizhou University, a rising hub for scientific research in China. At Guizhou University, he expanded his research portfolio by focusing on modular single-carbon insertion reactions and their applications in pesticide design. His work at Guizhou emphasizes green chemistry principles and atom-economical strategies, aligning his research with global calls for sustainable innovation. Over the course of his professional career, Jiang has demonstrated a unique combination of deep technical expertise and practical application, consistently pushing the boundaries of synthetic chemistry. His progression from graduate student to a respected academic researcher in a relatively short span reflects both his scientific excellence and leadership capabilities.

Research Interest

Yaojia Jiang’s research interests center around reactive intermediates, especially carbenes and nitrenes, and their controlled transformations for synthetic applications. His early work in radical chemistry laid the foundation for a deep understanding of highly reactive species, leading to advanced exploration of carbene and nitrene chemistries during his Ph.D. training. Jiang is particularly fascinated by modular single-carbon insertion reactions, which offer precise control over molecular architecture and have significant implications in developing functional molecules. His current research aims to apply these reactions toward the design of new, environmentally friendly pesticides using green and atom-economical processes. This focus bridges fundamental organic chemistry with real-world applications in agriculture and environmental protection. His interdisciplinary approach, integrating organic synthesis with biological insights from his postdoctoral experience, allows him to pursue research topics that are both intellectually challenging and socially impactful. In an era where sustainable chemical processes are increasingly vital, Jiang’s research direction positions him at the forefront of green innovation in synthetic chemistry. His ongoing projects reflect a balance of fundamental scientific curiosity and a commitment to contributing solutions to pressing global challenges.

Research Skills

Yaojia Jiang possesses an extensive range of research skills that make him highly effective as a synthetic chemist and innovator. His expertise in radical, carbene, and nitrene chemistry provides him with a strong foundation in handling reactive intermediates and understanding complex reaction mechanisms. He is skilled in the design and execution of multi-step organic synthesis, employing both classical methods and cutting-edge techniques. His experience with biological sciences during his postdoctoral training broadened his technical capabilities to include interdisciplinary methods, blending chemistry with biological systems analysis. Jiang’s research emphasizes green chemistry and atom-economical strategies, requiring a keen understanding of reaction efficiency, catalyst design, and sustainable process development. His work also demonstrates strong skills in experimental planning, data analysis, and scientific writing, evidenced by his successful transition into independent research leadership. Jiang has shown proficiency in mentoring younger researchers and managing laboratory activities, essential skills for building and maintaining a productive research team. His methodological rigor, creativity in problem-solving, and adaptability to new research challenges underscore his profile as a highly skilled and versatile researcher ready for larger international scientific collaborations and leadership roles.

Award and Honors

Although specific awards and honors for Yaojia Jiang were not listed in the provided information, his career progression itself is a testament to his excellence. Successfully obtaining a Ph.D. from a prestigious institution such as Nanyang Technological University under the mentorship of world-renowned scientists is a strong indicator of his academic and research capabilities. Securing independent research positions at respected universities like Nanjing Tech University and Guizhou University reflects institutional recognition of his potential and contributions. His rapid transition to an independent career and his ability to sustain and develop research programs in competitive environments suggest that he has earned professional respect in the field of synthetic and green chemistry. In future stages of his career, additional formal recognitions such as international awards, research grants, or leadership appointments in scientific societies could further highlight his achievements. Overall, Yaojia Jiang’s track record positions him well for future honors as he continues to contribute significantly to the advancement of chemical sciences and sustainable technologies.

Conclusion

Yaojia Jiang exemplifies the qualities of a forward-thinking and highly capable researcher in the field of synthetic and green chemistry. His strong academic background, diverse research experiences, and focus on addressing real-world challenges through innovative chemical processes make him a standout figure in modern scientific research. His work on carbene transformations and modular single-carbon insertion reactions, with applications in sustainable pesticide development, reflects a rare combination of deep scientific understanding and social responsibility. While his profile would be further strengthened by greater international recognition and large-scale collaborations, his current achievements already demonstrate significant excellence and impact. Yaojia Jiang is on a clear path toward becoming a global leader in green chemistry and synthetic innovation. His ongoing dedication to sustainable chemical solutions and his ability to adapt and expand his research interests mark him as an ideal candidate for future prestigious awards and broader academic leadership roles.

Publications Top Notes

  1. Title: Discovery of Novel Antibacterial Agents against Plant Pathogens: Design, Synthesis, Antibacterial Activity, and Mechanism of Action of 1,2,4-Thiadiazole Derivatives Containing a Sulfone Moiety

    • Authors: Zou Yue, Zhu Mei, Zhu Zongnan, Jiang Yaojia, Chen Jixiang

    • Year: 2025

  2. Title: Synthesis of Functionalized Cycloheptadienones Starting from Phenols and Using a Rhodium/Boron Asymmetric Catalytic System

    • Authors: Han Jiabin, Fan Yaxin, Yang Xiaoyan, Hao Gefei, Jiang Yaojia

    • Year: 2025

    • Citations: 1

  3. Title: Pd(II) Auxiliary Assembling and Diverse Transformations via Inert C(sp³)-H Bond Activation

    • Authors: Luo Jiangbin, Chen Jie, Yang Xiaoyan, Hao Gefei, Jiang Yaojia

    • Year: 2025

  4. Title: Nickel-Catalyzed Multicomponent Assembly of Alkynes Toward α‑CF₃‑Alkenes

    • Authors: Li Ling, Li Yingmei, Yan Chongchong, Zhang Jian, Jiang Yaojia

    • Year: 2024

Jindian Duan | Organic Chemistry | Best Researcher Award

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Prof. Jindian Duan | Organic Chemistry | Best Researcher Award

Associate Professor from Nanjing Tech University, China

Jindian Duan, born in 1985 in Luoyang, Henan Province, is an accomplished associate professor and Master’s supervisor at the College of Biotechnology and Pharmaceutical Engineering, Nanjing Tech University. His research focuses on developing novel processes and materials using microfluidic technology and bio-based chemicals. He has made significant contributions to the scientific community with over 20 publications in high-impact international journals, including Org. Lett., Chem. Commun., and Adv. Synth. Catal. His research achievements have earned him more than 10 Chinese invention patents. Duan’s career reflects both academic excellence and an ongoing commitment to advancing cutting-edge technologies in organic chemistry. With a strong educational background and extensive professional experience, he continues to make valuable contributions to the fields of chemistry and biotechnology.

Professional Profile

Education

Jindian Duan’s educational background includes a Ph.D. in Organic Chemistry from Zhejiang University, completed in 2013. His doctoral research, under the supervision of Prof. Cheng Ma, focused on asymmetric catalytic cascade reactions. Before this, he earned a Master of Engineering in Chemical Engineering from Zhejiang University in 2008, where he worked on the intermediate of the fungicide fludioxonil under the guidance of Prof. Lirong Yang. His academic journey began at Dalian University of Technology, where he obtained a B.Sc. in Chemistry in 2006. These advanced degrees laid the foundation for his current expertise in organic chemistry and chemical engineering, enabling him to contribute significantly to his field.

Professional Experience

Jindian Duan’s professional career spans several prestigious academic institutions. Since May 2017, he has served as an associate professor at Nanjing Tech University, where he also supervises Master’s students. Prior to this, Duan was a postdoctoral researcher at The Hong Kong Polytechnic University from 2015 to 2017, specializing in transition metal-catalyzed coupling reactions. He also worked as an assistant researcher at the Southern University of Science and Technology from 2013 to 2015, where he focused on asymmetric catalytic cascade reactions of organic small molecules. Earlier in his career, Duan worked as a technology transfer engineer and chemical process engineer at Lonza R&D Center in Guangzhou, where he was involved in the scale-up and pilot production of pharmaceutical intermediates.

Research Interests

Jindian Duan’s primary research interests lie in the development of novel processes and materials based on microfluidic technology. His work is focused on advancing bio-based chemicals and creating innovative approaches to organic chemistry. Duan’s research has led to the development of new catalytic processes and materials, with particular emphasis on environmentally friendly and sustainable practices. He is also engaged in the development of transition metal-catalyzed reactions and asymmetric catalytic cascade reactions. His research is highly interdisciplinary, bridging the fields of microfluidics, green chemistry, and biotechnology.

Research Skills

Duan’s research skills are rooted in his deep understanding of organic chemistry and chemical engineering. He is proficient in microfluidic technology and its application to the synthesis of novel materials and bio-based chemicals. His work in asymmetric catalytic reactions has been groundbreaking, and his expertise extends to the development of scalable, sustainable chemical processes. Duan is skilled in various advanced techniques such as transition metal-catalyzed reactions, synthetic organic chemistry, and the design of catalytic systems. He is also experienced in patenting innovative solutions, having filed over 10 Chinese invention patents. His collaborative work in multidisciplinary teams further enhances his research capabilities.

Awards and Honors

Jindian Duan’s research excellence has been recognized through numerous accolades and awards. He has published over 20 high-impact papers in prestigious journals, marking him as a leading figure in his field. Additionally, his contributions to innovative chemical processes and materials have earned him more than 10 Chinese invention patents. Duan’s work on bio-based chemicals and microfluidic technology has not only enriched the scientific community but also contributed to the development of sustainable practices in chemistry. His ongoing commitment to research and innovation continues to be acknowledged by both academic and industrial sectors.

Conclusion

Jindian Duan is a highly accomplished researcher whose work in microfluidic technology and bio-based chemicals has significantly advanced the fields of organic chemistry and biotechnology. His impressive publication record and over 10 granted patents reflect his ability to push the boundaries of scientific research. As an associate professor and supervisor at Nanjing Tech University, Duan also plays a key role in shaping the next generation of researchers. His combination of innovative research, strong academic leadership, and commitment to sustainability makes him a valuable asset to the scientific community. Looking forward, Duan’s continued contributions are expected to have a lasting impact on the fields he specializes in.

Publications Top Notes

Electrochemical Reductive Bimolecular Cycloaddition of 2-Arylideneindane-1,3-diones for the Synthesis of Spirocyclopentanole Indane-1,3-diones
Authors: Luchao Li, Binyan Xu, Chenglong Jia, Jindian Duan, Kai Guo
Journal: Journal of Organic Chemistry
Year: 2025

2. Oxidative Spirolactonisation for Modular Access of γ-Spirolactones via a Radical Tandem Annulation Pathway
Authors: Jindian Duan, Xiaojuan Ding, Pui Ying Choy, Fuk Yee Kwong, Kai Guo
Journal: Chinese Chemical Letters
Year: 2024
Citations: 1

3. Copper(I)-Catalyzed [4+2] Oxidative Annulation of α,β-Unsaturated Ketoxime Acetates with Cyclopropanols toward Functional Pyridines
Authors: Qinghuan Wu, Gaochen Xu, Yuguang Li, Jindian Duan, Kai Guo
Journal: Advanced Synthesis and Catalysis
Year: 2023
Citations: 1

Jing Li | Organic Chemistry | Best Researcher Award

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Prof. Jing Li | Organic Chemistry | Best Researcher Award

Dean of Chemistry at Xi’an Jiaotong University, China

Jing Li is a highly regarded chemist and academic researcher, currently serving as a full professor at Xi’an Jiaotong University, China. He has an extensive research career that spans multiple continents, having worked at institutions like Tohoku University in Japan and the University of Vienna in Austria. Jing Li’s research is primarily focused on synthetic chemistry, specifically developing novel catalytic systems and synthetic methodologies. He has published extensively in high-impact journals, contributing significantly to advancements in chemical synthesis, reaction mechanisms, and catalytic processes. His work is highly regarded within the scientific community, evidenced by his numerous collaborations with leading researchers and his recognition as a leader in his field. Jing Li’s academic journey, from a master’s at Zhengzhou University to a full professorship at one of China’s leading institutions, reflects his deep commitment to advancing scientific knowledge and fostering innovation in chemistry. His contributions to the field have been consistently recognized through his publication record and his involvement in international collaborations.

Professional Profile

Education

Jing Li’s educational background is marked by a strong foundation in chemistry and a progression of academic excellence. He completed his bachelor’s degree in chemistry at Northeast Forestry University in China, followed by a master’s degree at Zhengzhou University, where he honed his understanding of chemical principles and laboratory techniques. His pursuit of advanced knowledge led him to Tohoku University in Japan, where he earned a Ph.D. in chemistry, further deepening his expertise in synthetic chemistry and catalysis. His academic journey also took him to the University of Vienna for a postdoctoral research position, where he broadened his experience in chemical synthesis and collaborative international research. Throughout his education, Jing Li demonstrated a consistent passion for advancing scientific knowledge, which propelled him toward key research positions in top-tier institutions. His educational trajectory reflects a blend of rigorous academic training and practical, hands-on research experience, which he continues to apply in his teaching and ongoing research at Xi’an Jiaotong University.

Professional Experience

Jing Li has accumulated significant professional experience over the course of his academic career, contributing to his standing as an expert in synthetic chemistry. He currently holds the position of Full Professor at Xi’an Jiaotong University in China, where he leads research projects and teaches courses in chemistry. Prior to his appointment at Xi’an Jiaotong University, he was an Assistant Professor at Tohoku University in Japan, where he gained international recognition for his work on innovative catalytic methods and organic synthesis. Jing Li also conducted postdoctoral research at the University of Vienna, where he collaborated with esteemed researchers in the field of chemical synthesis, further expanding his research portfolio. His academic career has been marked by a strong commitment to research, mentorship, and the development of new synthetic methodologies. Jing Li’s professional experience reflects a career dedicated to pushing the boundaries of scientific understanding in synthetic chemistry, with a focus on catalysis and organic reaction mechanisms, all while nurturing the next generation of chemists through teaching and mentoring.

Research Interests

Jing Li’s research interests lie primarily in the fields of synthetic chemistry and catalysis, with a focus on developing novel methodologies and reaction mechanisms that can lead to more efficient, sustainable chemical processes. He is particularly interested in the design of new catalytic systems that can facilitate enantioselective reactions and redox-neutral processes. His work explores the development of light-dependent coupling reactions, as well as methods for the synthesis of sterically hindered compounds, such as peptides and amides. A key aspect of his research is the exploration of catalysis as a tool for solving complex synthetic challenges, with an emphasis on sustainable and environmentally friendly approaches. Jing Li’s studies also extend to the development of new synthetic routes for creating compounds of significant interest in materials science and pharmaceuticals. His research has implications for both fundamental chemistry and practical applications in industries such as drug discovery, chemical manufacturing, and materials science. Through his innovative approach to catalysis and chemical synthesis, Jing Li aims to provide groundbreaking solutions that can drive advancements in both academic and industrial chemistry.

Research Skills

Jing Li’s research skills encompass a wide range of techniques in synthetic chemistry and catalysis. He has expertise in the design and development of new catalytic systems, focusing on redox-neutral and enantioselective reactions. His work requires deep knowledge of reaction mechanisms, as well as the ability to create complex molecular structures through innovative synthetic pathways. Jing Li is skilled in applying various reaction techniques such as oxidative amidation, thioacylation, and cross-coupling reactions to synthesize a variety of chemical compounds. He has experience working with a range of catalytic systems, including iron, iodine, and palladium catalysts, and is adept at using modern analytical techniques to characterize reaction products. His expertise also includes the design of stereoselective synthesis methods for complex organic molecules, such as peptides and amides. In addition to his synthetic chemistry skills, Jing Li is proficient in collaborative research, having worked extensively with international researchers and teams. His ability to work across diverse research environments and apply his skills to a wide range of chemical problems makes him an invaluable contributor to the field.

Awards and Honors

While Jing Li’s CV highlights an impressive array of research accomplishments and contributions, the detailed mention of awards and honors is not readily available. However, his significant publication record in high-impact journals such as Nature Communications and JACS suggests recognition within the scientific community. The research contributions he has made, particularly in the development of novel catalytic processes and synthetic methodologies, have garnered international attention and likely earned him academic accolades. His work with esteemed collaborators and his leadership position as a professor further suggest that Jing Li is a respected figure in his field. His expertise in catalysis and synthetic chemistry has positioned him as a leader in the development of innovative methodologies. While more information on specific awards is needed, his continued success and recognition in international journals and collaborations underscore his ongoing influence and the high regard in which he is held by his peers.

Conclusion

Jing Li’s career trajectory as an academic researcher and educator exemplifies the qualities of a leading scientist in the field of synthetic chemistry. With a robust educational background, significant professional experience, and groundbreaking research in catalytic systems and synthetic methods, he has made substantial contributions to the advancement of chemistry. His innovative work, published in top-tier journals, underscores his position as a key player in the academic and scientific community. As a professor at Xi’an Jiaotong University, Jing Li continues to influence the field of chemistry through both his research and his mentorship of the next generation of scientists. His research interests in sustainable and efficient chemical processes, combined with his strong technical expertise, make him a well-rounded candidate for recognition as a best researcher. However, including more information on personal awards and recognitions would further strengthen his candidacy for the award. Overall, Jing Li is a highly accomplished scientist whose work continues to inspire and drive progress in the field of synthetic chemistry

Publication Top Notes

  1. α-Cyclopropanation of Carbonyl Derivatives by Oxidative Umpolung
    Authors: Bauer, A., Di Mauro, G., Li, J., Maulide, N.
    Journal: Angewandte Chemie – International Edition
    Year: 2020
    Citations: 20
  2. A Redox-Neutral Synthesis of Ketones by Coupling of Alkenes and Amides
    Authors: Li, J., Oost, R., Maryasin, B., González, L., Maulide, N.
    Journal: Nature Communications
    Year: 2019
    Citations: 27
  3. α-Arylation of Carbonyl Compounds through Oxidative C−C Bond Activation
    Authors: Li, J., Bauer, A., Di Mauro, G., Maulide, N.
    Journal: Angewandte Chemie – International Edition
    Year: 2019
    Citations: 41
  4. A Chemoselective α-Oxytriflation Enables the Direct Asymmetric Arylation of Amides
    Authors: Li, J., Berger, M., Zawodny, W., Simaan, M., Maulide, N.
    Journal: Chem
    Year: 2019
    Citations: 38
  5. Diastereo- and Enantioselective Access to Stereotriads through a Flexible Coupling of Substituted Aldehydes and Alkenes
    Authors: Li, J., Preinfalk, A., Maulide, N.
    Journal: Angewandte Chemie – International Edition
    Year: 2019
    Citations: 12
  6. Sterically Congested Ester Formation from α-Substituted Malononitrile and Alcohol by an Oxidative Method Using Molecular Oxygen
    Authors: Hayashi, Y., Li, J., Asano, H., Sakamoto, D.
    Journal: European Journal of Organic Chemistry
    Year: 2019
    Citations: 21
  7. Enantioselective Redox-Neutral Coupling of Aldehydes and Alkenes by an Iron-Catalyzed Catch-Release Tethering Approach
    Authors: Li, J., Preinfalk, A., Maulide, N.
    Journal: Journal of the American Chemical Society
    Year: 2019
    Citations: 25
  8. On the Formation of Seven-Membered Rings by Arene-Ynamide Cyclization
    Authors: Brutiu, B.R., Bubeneck, W.A., Cvetkovic, O., Li, J., Maulide, N.
    Journal: Monatshefte für Chemie
    Year: 2019
    Citations: 12
  9. Chemoselective Activation of Diethyl Phosphonates: Modular Synthesis of Biologically Relevant Phosphonylated Scaffolds
    Authors: Adler, P., Pons, A., Li, J., Brutiu, B.R., Maulide, N.
    Journal: Angewandte Chemie – International Edition
    Year: 2018
    Citations: 37
  10. Autoinductive Conversion of α,α-Diiodonitroalkanes to Amides and Esters Catalyzed by Iodine Byproducts under O₂
    Authors: Li, J., Lear, M.J., Hayashi, Y.
    Journal: Chemical Communications
    Year: 2018
    Citations: 7

 

Farag Altalbawy | Organic Chemistry | Excellence in Research

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Prof. Dr. Farag Altalbawy | Organic Chemistry | Excellence in Research

ProfDr. at University of Tabuk, Saudi Arabia

Prof. Dr. Farag Mohamed A. Altalbawy is an esteemed Professor of Photoorganic Chemistry with a distinguished career marked by significant contributions to organic and nanomaterial chemistry. Born in Giza, Egypt, Prof. Altalbawy has held various academic roles in Egypt and Saudi Arabia, specializing in photoorganic chemistry and nanotechnology applications. His research focuses on organic and heterocyclic chemistry, spectroscopic analysis, and nanoparticle chemistry, with recent work addressing environmental applications, drug delivery systems, and cancer therapies. Prof. Altalbawy has an impressive publication record with studies appearing in prestigious international journals. His collaboration with researchers worldwide underlines his commitment to advancing scientific knowledge. Known for his expertise in Density Functional Theory (DFT) and spectroscopic methods, he leverages advanced analytical tools to tackle complex research questions. Prof. Altalbawy’s career showcases a dedication to innovative, interdisciplinary research and a global perspective on collaboration.

Professional Profile

Education

Prof. Altalbawy completed his B.Sc. in Chemistry with distinction at Cairo University in 1988. His academic journey took him to Monash University, Australia, where he earned an M.Sc. in 2001, focusing on photoorganic chemistry and gaining foundational expertise in organic synthesis. In 2005, he achieved his Ph.D. in Photoorganic Chemistry from Cairo University. His doctoral research delved into advanced photophysical and photochemical properties of organic molecules, equipping him with an in-depth understanding of spectroscopic analysis and reaction mechanisms. His comprehensive education, combining theoretical knowledge with practical training in experimental methodologies, laid the groundwork for his later research in nanomaterials and heterocyclic chemistry. Prof. Altalbawy’s academic background has been instrumental in shaping his innovative approach to chemical research, particularly in developing nano-based systems for biomedical applications.

Professional Experience

Prof. Altalbawy has accumulated over two decades of academic and research experience, beginning as a Demonstrator at Cairo University in 1997. He progressed to Assistant Lecturer in 2001 and Assistant Professor by 2006, solidifying his expertise in photoorganic and spectroscopic chemistry. In 2013, he advanced to Associate Professor at Cairo University, where he expanded his research into nanomaterials and computational chemistry. Currently, Prof. Altalbawy holds a professorship at the University of Tabuk in Saudi Arabia, a position he has occupied since 2018. His role there encompasses teaching, mentoring, and leading research initiatives in advanced chemistry topics. Throughout his career, Prof. Altalbawy has not only taught a wide array of chemistry courses but also contributed to numerous research projects with international collaborators, illustrating his commitment to fostering scientific exchange and innovation.

Research Interests

Prof. Altalbawy’s research interests lie at the intersection of organic chemistry, nanotechnology, and computational modeling. His work spans organic synthesis, heterocyclic chemistry, spectroscopic analysis, and the application of nanoparticles in environmental and biomedical fields. In recent years, he has focused on nanostructured materials for drug delivery, with significant contributions in Density Functional Theory (DFT) studies, providing theoretical insights into molecular interactions. Prof. Altalbawy’s exploration of metal-organic frameworks (MOFs) and other novel nanostructures for sensing and catalysis reflects his dedication to developing cutting-edge solutions for complex chemical challenges. Additionally, his research on anti-cancer drug delivery systems and nanosensors underscores his commitment to advancing healthcare through chemistry, positioning him as a key contributor to modern photochemistry and nano-biotechnology.

Research Skills

Prof. Altalbawy is proficient in a wide range of research skills, including advanced spectroscopic techniques, DFT computational modeling, and organic synthesis. He is skilled in the use of software tools like ChemDraw and ISIS for chemical structure visualization and analysis. His expertise in Microsoft Office and internet-based research applications supports his data management and presentation capabilities. Prof. Altalbawy has significant experience with spectroscopic instrumentation, employing techniques such as UV-Vis and FTIR to analyze molecular properties. Additionally, his computational skills enable him to conduct theoretical studies on nanostructured materials, investigating their potential applications in areas such as drug delivery and environmental remediation. His combined proficiency in both experimental and computational methods reflects a versatile approach to tackling interdisciplinary scientific problems.

Awards and Honors

Prof. Altalbawy’s contributions to the field of chemistry have earned him recognition both regionally and internationally. While specific awards are not listed in his CV, his achievements, including numerous high-impact publications in international journals, reflect his stature and influence in the scientific community. His work in advancing photoorganic and nanomaterial chemistry has likely brought him considerable respect among his peers, and his role at University of Tabuk as a professor underscores his academic distinction. Prof. Altalbawy’s collaborations across global research teams are a testament to his expertise and the value his insights bring to multi-disciplinary projects. His career achievements highlight his dedication to advancing knowledge and innovation in chemistry, making him a strong candidate for honors within academic and scientific circles.

Conclusion

Prof. Dr. Farag Mohamed A. Altalbawy’s strong research portfolio, international collaborations, and extensive publication record make him a robust candidate for the Best Researcher Award. His profile is distinguished by a commitment to innovative and relevant research areas in photoorganic chemistry and nanotechnology, which aligns well with the award’s criteria. Adding mentorship and greater diversity in research methods would further strengthen his candidacy, but overall, he demonstrates exceptional qualifications worthy of recognition.

Publication Top Notes

  1. The PDINH decorated NH2-UiO-67 MOF for promoted photocatalytic Cr(VI) reduction: Performance, and mechanism
    • Authors: Suliman, M., Altalbawy, F.M.A., Sur, D., Hamoodah, Z.J., Almoswee, M.
    • Year: 2025
    • Journal: Journal of Molecular Structure, 1322, 140374
  2. An overview of lncRNA NEAT1 contribution in the pathogenesis of female cancers; from diagnosis to therapy resistance
    • Authors: Ibraheem Shelash Al-Hawari, S., Abdalkareem Jasim, S., M. A. Altalbawy, F., Alsaadi, S.B., Hussein Zwamel, A.
    • Year: 2025
    • Journal: Gene, 933, 148975
  3. Incorporation anthracene and Cu to NH2-Zr-UiO-67 metal-organic framework: Introducing the simultaneous selectivity and efficiency in photocatalytic CO2 reduction to ethanol
    • Authors: Saadh, M.J., Mustafa, M.A., Altalbawy, F.M.A., Alam, M.M., Abosaoda, M.K.
    • Year: 2024
    • Journal: Journal of Molecular Structure, 1318, 139329
  4. Exploring green synthesis and characterization of ZIF-8 and recent developments in anti-infective applications
    • Authors: Suliman, M., Altalbawy, F.M.A., Kaur, M., Zwamel, A.H., Abualigah, L.
    • Year: 2024
    • Journal: Inorganic Chemistry Communications, 170, 113333
  5. Role of homeobox genes in cancer: immune system interactions, long non-coding RNAs, and tumor progression
    • Authors: Jasim, S.A., Farhan, S.H., Ahmad, I., Alsaadi, S.B., Abosaoda, M.K.
    • Year: 2024
    • Journal: Molecular Biology Reports, 51(1), 964
  6. Fe3O4@SiO2-APA-Amide/Imid-NiCl2 as a New Nano-Magnetic Catalyst for the Synthesis of 4H-Pyrimido[2,1-b]benzothiazole Derivatives via MCRs Under Solvent-Free Conditions
    • Authors: Altalbawy, F.M.A., Ballal, S., Chahar, M., Kalyani, T., Alhadrawi, M.
    • Year: 2024
    • Journal: ChemistrySelect, 9(42), e202403810
  7. A theoretical approach on the removal of elemental Cu and Cu (I) ions applying the g-C3N4S, g-C3N4O, g-C3N4N, and g-C3N4 nanosheets
    • Authors: Altalbawy, F.M.A., Mustafa Hameed, S., Rekha, M.M., Ali Mtasher, A., Seed, F.F.
    • Year: 2024
    • Journal: Computational and Theoretical Chemistry, 1241, 114917
  8. Synthesis, characterization, and applications of starch-based nano drug delivery systems for breast cancer therapy: A review
    • Authors: Mei, S., Roopashree, R., Altalbawy, F.M.A., Al-Abdeen, S.H.Z., Alhadrawi, M.
    • Year: 2024
    • Journal: International Journal of Biological Macromolecules, 280, 136058
  9. Harmonizing sustainability and sensing: Exploring green synthesis approaches and sensing advancements in Au-based nanostructures
    • Authors: Roopashree, R., Altalbawy, F.M.A., Krishna Saraswat, S., Warid Maya, R., Alhadrawi, M.
    • Year: 2024
    • Journal: Inorganic Chemistry Communications, 169, 113130
  10. Inhibitors of the mTOR signaling pathway can play an important role in breast cancer immunopathogenesis
    • Authors: Al-Hawary, S.I.S., Altalbawy, F.M.A., Jasim, S.A., Jawad, M.A., Zwamel, A.H.
    • Year: 2024
    • Journal: Cell Biology International, 48(11), 1601–1611

 

Sangita Sharma | Computational Organicchemistry | Best Researcher Award

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Prof Dr. Sangita Sharma | Computational Organicchemistry | Best Researcher Award

Professor & Head at Hemchandracharya North Gujarat University, India.

Prof. Dr. Sangita Sharma is an accomplished academician with over 30 years of experience in teaching and research. She holds multiple degrees, including an M.Sc. and M.Phil. in Physical Chemistry, a Ph.D. in Chemistry, as well as B.Ed. and M.Ed. degrees, alongside an LLB. With a research career spanning 32 years, she has published 156 research papers in national and international journals and supervised 28 Ph.D. and 14 M.Phil. students. Her research interests include developing protocols for dye removal from wastewater and studying Ginkgo biloba’s components in Alzheimer’s treatment. Prof. Dr. Sharma has also held several key positions at her university, including Chairman of the University Industry Linkage Cell and Director of the Internal Quality Assurance Cell (IQAC). Additionally, she has organized over 70 seminars and workshops focused on social issues such as women empowerment and gender equality. Her extensive contributions to academia have earned her numerous awards and recognitions, underscoring her commitment to education and research excellence.

Profile:

Education

Prof. Dr. Sangita Sharma holds a diverse and impressive educational background. She earned her M.Sc. and M.Phil. degrees in Physical Chemistry, followed by a B.Ed. and an M.Ed. degree. Furthering her academic credentials, she obtained a Ph.D. in Chemistry and an LLB. Additionally, Prof. Dr. Sharma has completed ten in-service courses from various universities across India, demonstrating her commitment to continuous professional development and a deep understanding of her field.

Professional Experiences 

Prof. Dr. Sangita Sharma has amassed an extensive professional experience of over 30 years in postgraduate teaching within university departments. She has taught a wide range of topics in physical chemistry, including thermodynamics, chemical kinetics, electrochemistry, quantum chemistry, adsorption, polymer nuclear chemistry, and instrumental techniques. As an examiner for both practical and theory components, she has evaluated postgraduate students across ten universities and assessed Ph.D. theses from various institutions. Additionally, she has served as a paper setter for M.Phil. and Ph.D. entrance examinations, as well as for state public service examinations. Her academic involvement extends to administrative roles, where she has made significant contributions to various committees and educational policies, including her position as Chairman of the Committee Against Sexual Harassment and Director of the Internal Quality Assurance Cell (IQAC).

Research Interests

Prof. Dr. Sangita Sharma’s research interests are primarily focused on physical chemistry, with a particular emphasis on the development of innovative protocols for environmental remediation. She has conducted significant research on the removal of dyes from wastewater, leveraging her expertise in chemical kinetics and thermodynamics. Additionally, her work explores the therapeutic potential of components derived from Ginkgo biloba in the treatment of Alzheimer’s disease, utilizing theoretical computational tools to advance the understanding of chemical interactions. Over her 32-year research career, she has published 156 research papers in national and international journals, supervised 28 Ph.D. students and 14 M.Phil. students, and successfully completed 12 government-funded projects, all reflecting her commitment to advancing knowledge in her field.

Research skills 

Prof. Dr. Sangita Sharma possesses a diverse set of research skills honed over her extensive career in physical chemistry. Her expertise includes advanced techniques in chemical analysis, thermodynamics, and electrochemistry, enabling her to conduct thorough investigations in both theoretical and experimental domains. She has a proven ability to design and implement protocols for the removal of contaminants from wastewater and has worked on projects assessing the medicinal properties of natural compounds. Dr. Sharma is skilled in supervising graduate research, having guided numerous Ph.D. and M.Phil. students, and is adept at evaluating and critiquing research work, having served as an examiner for various universities. Her strong analytical skills are complemented by a robust publication record, with 156 research papers to her name, along with the experience of being a reviewer for leading scientific journals, highlighting her critical engagement with current scientific discourse.

Conclusion

With her extensive qualifications, impressive research achievements, and unwavering commitment to education and community service, Prof. Dr. Sangita Sharma is an outstanding candidate for the Research for Best Researcher Award. Her exemplary contributions to academia and society make her deserving of this prestigious recognition.

Publication Top Notes
  • Density a comparative refractive index study on mixing properties of binary liquid mixtures of Eucalyptol with Hydrocarbons at 303.15, 308.15 and 313.15 K
    Authors: R.S.P.J.J.V. Sangita Sharma, Pragnesh B. Patel
    Journal: E-Journal of Chemistry
    Volume: 4
    Pages: 343-349
    Year: 2007
    Citations: 84
  • Synthesis and antimicrobial activity of pyrazole nucleus containing 2-thioxothiazolidin-4-one derivatives
    Authors: H. B’Bhatt, S. Sharma
    Journal: Arabian Journal of Chemistry
    Volume: 10
    Pages: S1590-S1596
    Year: 2017
    Citations: 73
  • Kinetic study of application of ZnO as a photocatalyst in heterogeneous medium
    Authors: J.J. Vora, S.K. Chauhan, K.C. Parmar, S.B. Vasava, S. Sharma, L.S. Bhutadiya
    Journal: Journal of Chemistry
    Volume: 6
    Issue: 2
    Pages: 531-536
    Year: 2009
    Citations: 52
  • A dechlorination pathway for synthesis of horn shaped carbon nanotubes and its adsorption properties for CO2, CH4, CO and N2
    Authors: S.Y. Sawant, R.S. Somani, H.C. Bajaj, S.S. Sharma
    Journal: Journal of Hazardous Materials
    Volume: 227
    Pages: 317-326
    Year: 2012
    Citations: 39
  • Synthesis and characterization of nickel (II), zinc (II), and cadmium (II) mixed-ligand complexes with 2, 2′-bipyridylamine and phenols
    Authors: J.D. Joshi, S. Sharma, G. Patel, J.J. Vora
    Journal: Synthesis and Reactivity in Inorganic and Metal-Organic Chemistry
    Volume: 32
    Issue: 10
    Year: 2002
    Citations: 36
  • Synthesis, Spectral and Microbial Studies of Some Novel Schiff Base Derivatives of 4‐Methylpyridin‐2‐amine
    Authors: J.J. Vora, S.B. Vasava, K.C. Parmar, S.K. Chauhan, S.S. Sharma
    Journal: Journal of Chemistry
    Volume: 6
    Issue: 4
    Pages: 1205-1210
    Year: 2009
    Citations: 34
  • Acumen into the effect of alcohols on choline chloride: L-lactic acid-based natural deep eutectic solvent (NADES): A spectral investigation unified with theoretical and …
    Authors: A.K. Jangir, H. Mandviwala, P. Patel, S. Sharma, K. Kuperkar
    Journal: Journal of Molecular Liquids
    Volume: 317
    Pages: 113923
    Year: 2020
    Citations: 33
  • Density and viscometric study of binary liquid mixtures of morpholine with some aromatic hydrocarbons at temperatures 303.15, 308.15 and 313.15 K
    Authors: S. Sharma, M. Makavana
    Journal: Fluid Phase Equilibria
    Volume: 375
    Pages: 219-227
    Year: 2014
    Citations: 32
  • Synthesis, Characterization and Antibacterial Activity of a New Series of s‐Triazines Derived with Quinolines
    Authors: J.J. Vora, S.B. Vasava, A.D. Patel, K.C. Parmar, S.K. Chauhan, S.S. Sharma
    Journal: Journal of Chemistry
    Volume: 6
    Issue: 1
    Pages: 201-206
    Year: 2009
    Citations: 32
  • Density, excess molar volumes and refractive indices of β-pinene with o, m, p-xylene and toluene at 303.15, 308.15 and 313.15 K
    Authors: S. Sharma, J. Bhalodia, J. Ramani, R. Patel
    Journal: Physics and Chemistry of Liquids
    Volume: 49
    Issue: 6
    Pages: 765-776
    Year: 2011
    Citations: 30