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

Dr. Radwan Ali | Organic Chemistry | Young Scientist Award

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Dr. Radwan Ali | Organic Chemistry | Young Scientist Award

Assistant Lecturer from University of Al-Qadisiyah, Iraq

Radwan Ali is a dedicated researcher and academic specializing in organic chemistry. Born in Al-Qadisiyah, Iraq, he has pursued an extensive academic career, culminating in a PhD in Organic Chemistry from Ilam University, Iran. His expertise lies in organic synthesis, heterocyclic chemistry, and catalysis, with a particular focus on multicomponent reactions and synthetic methodologies. Currently, he serves as an Assistant Lecturer at the University of Al-Qadisiyah, where he balances teaching responsibilities with active research. His work aims to develop innovative and sustainable chemical processes, contributing to advancements in organic and analytical chemistry. Through his academic journey, Radwan Ali has developed a strong foundation in research, demonstrated leadership in education, and explored new frontiers in chemistry. His contributions to the field are evident through his focus on natural product synthesis and the application of nanocatalysts. As a researcher, he aspires to bridge the gap between theoretical chemistry and real-world applications, ensuring that his work has both scientific and practical significance. His commitment to continuous learning and research innovation positions him as a promising candidate for recognition in the field of young scientists.

Professional Profile

Education

Radwan Ali has pursued a comprehensive education in chemistry, specializing in organic and analytical chemistry. He earned his Bachelor of Science (BSc) in Chemistry from the University of Al-Qadisiyah, Iraq, in 2018. His undergraduate studies provided a strong foundation in chemical principles, laboratory techniques, and research methodologies. Following his BSc, he pursued a Master of Science (MSc) in Analytical Chemistry at Azad University, Mashhad, Iran, completing his degree in 2020. His MSc research involved advanced analytical techniques, contributing to his expertise in chemical analysis and methodology. Building on his previous studies, he began his Doctor of Philosophy (PhD) in Organic Chemistry at Ilam University, Iran, which he is set to complete in 2025. His doctoral research focuses on organic synthesis, heterocyclic compounds, and catalytic applications in multicomponent reactions. Through his educational journey, Radwan Ali has acquired an extensive understanding of both theoretical and practical chemistry, positioning him as a skilled researcher and educator. His academic achievements have prepared him to make meaningful contributions to the scientific community and advance research in organic chemistry.

Professional Experience

Radwan Ali is currently an Assistant Lecturer at the University of Al-Qadisiyah, Iraq. In this role, he teaches undergraduate chemistry courses, supervises laboratory sessions, and mentors students in their academic and research pursuits. His teaching responsibilities include fundamental and advanced chemistry courses, ensuring that students gain a comprehensive understanding of chemical principles and laboratory techniques. Beyond teaching, he is actively involved in research, contributing to advancements in organic synthesis and catalysis. His professional experience extends beyond academia, as he collaborates on research projects that explore new synthetic methodologies and the application of nanocatalysts in chemical reactions. Through his role as a lecturer, he has developed strong leadership and communication skills, effectively bridging the gap between research and education. His ability to integrate research findings into teaching enriches the learning experience for his students. Additionally, his involvement in laboratory supervision ensures that students gain hands-on experience with modern analytical and synthetic techniques. His professional journey reflects a commitment to both education and research, positioning him as a valuable contributor to the field of organic chemistry.

Research Interests

Radwan Ali’s research interests lie in the field of organic chemistry, particularly in organic synthesis and catalytic applications. His work focuses on the development of novel synthetic methodologies, including multicomponent reactions and asymmetric synthesis. He has a strong interest in heterocyclic synthesis, exploring the design and application of heterocyclic compounds in medicinal and industrial chemistry. Additionally, he is actively involved in the synthesis of natural products, aiming to develop environmentally friendly and efficient synthetic pathways. His research extends to the use of catalysts, including magnetic nanocatalysts, in organic transformations. These catalysts offer advantages in green chemistry, enhancing reaction efficiency while minimizing waste. His interest in analytical chemistry further supports his research, allowing him to develop advanced techniques for chemical characterization and reaction optimization. Through his research, he aims to contribute to sustainable and innovative approaches in organic synthesis, addressing challenges in pharmaceutical, agricultural, and materials science applications. His interdisciplinary approach ensures that his findings have both scientific and practical significance, reinforcing his commitment to advancing the field of organic chemistry.

Research Skills

Radwan Ali has developed a strong set of research skills in organic chemistry, analytical chemistry, and catalysis. His expertise in organic synthesis enables him to design and execute complex chemical reactions, including heterocyclic and asymmetric synthesis. He is proficient in various synthetic methodologies, particularly multicomponent reactions, which offer efficient and innovative approaches to chemical synthesis. His work with catalysts, including magnetic nanocatalysts, has provided him with experience in optimizing reaction conditions for enhanced efficiency and sustainability. Additionally, he has expertise in analytical techniques such as chromatography (HPLC, GC), spectroscopy (NMR, FTIR, UV-Vis), and mass spectrometry, allowing him to characterize and analyze chemical compounds effectively. His laboratory skills extend to experimental design, reaction optimization, and data interpretation, ensuring accuracy and reproducibility in his research. His ability to integrate synthetic and analytical chemistry techniques enhances the depth and applicability of his research. Furthermore, he has experience in scientific writing, publishing, and presenting research findings, which strengthens his ability to communicate complex scientific concepts to academic and professional audiences.

Awards and Honors

Radwan Ali’s contributions to chemistry research and education have earned him recognition in academia. While specific awards and honors are not mentioned, his selection as an Assistant Lecturer at the University of Al-Qadisiyah reflects his academic excellence and teaching capabilities. His involvement in advanced research on organic synthesis and catalysts suggests potential for future recognition, particularly in the areas of innovation and sustainable chemistry. Participation in international conferences, research collaborations, and publication in high-impact journals would further enhance his academic profile. Achieving funding grants, research fellowships, or best paper awards would also strengthen his standing as a leading young scientist. As he progresses in his academic and research career, his contributions to organic chemistry may lead to prestigious honors from scientific organizations, universities, or government institutions. Recognition for his work would not only validate his research impact but also open doors for further collaborations and professional growth.

Conclusion

Radwan Ali is a dedicated researcher and educator with a strong academic background in organic chemistry. His expertise in organic synthesis, heterocyclic chemistry, and catalyst applications positions him as a valuable contributor to scientific advancements. Through his role as an Assistant Lecturer, he combines research and teaching, ensuring that students receive high-quality education while also advancing his research in sustainable chemical methodologies. While he has demonstrated significant potential, enhancing his publication record, securing research grants, and engaging in international collaborations would further solidify his status as a leading young scientist. His interdisciplinary approach and commitment to green chemistry make his research highly relevant to modern scientific and industrial challenges. With continued contributions and recognition, he has the potential to achieve excellence in his field and make a lasting impact on organic and analytical chemistry. His dedication to innovation and education ensures that he will continue to play a crucial role in the advancement of scientific knowledge and sustainable chemical practices.

Publications Top Notes

  1. Title: Titanium Dioxide Nanoparticles in Dentistry: Multifaceted Applications and Innovations
    Authors: R. No, A.H. Alwan
    Year: 2023
    Citations: 5

  2. Title: Research on Ecofriendly Synthesis of Quinolin-4(1H)-Ones Using Fe3O4@SiO2-Diol-Phen-Pd(0) Nanocomposites as a Novel and Reusable Catalyst: Catalysis
    Authors: A.M. Amshawee, R. Ali, M.A. Hussain, M. Kazemi
    Year: 2025
    Citations: 3

  3. Title: Monolithic Zirconia in Dentistry: Evolving Aesthetics, Durability, and Cementation Techniques–An In-depth Review
    Authors: H.N. Jabber, R. Ali, M.N. Al-Delfi
    Year: 2023
    Citations: 3

  4. Title: Applications of Nano Magnesium Ferrite as a Catalyst in the Preparation of Heterocyclic Compounds: A Short Review
    Authors: R. Ali, S.A. Hussein, M.R. Znad, M.N. Al-Delfi
    Year: 2025
    Citations: 1

  5. Title: Probiotic Supplementation: A Promising Preventive Strategy for Dental Caries
    Authors: Z.F.A.L. Radwan Ali, Ali H. Murad
    Year: 2024
    Citations: 1

  6. Title: Fe3O4@SiO2-DHB/DI (S-NH)-Pd(0) Nanocomposite: A Novel, Efficient, and Reusable Heterogeneous Catalyst for Carbonylative Preparation of N-Aryl Amides
    Authors: A.M.H. Abudken, L. Saadi, R. Ali, M. Kazemi
    Year: 2025

  7. Title: Synthesis of Tetrahydrobenzo[𝑏]pyran Derivatives Using Reusable CoFe₂O₄@SiO₂-CPTES-Melamine-Cu Nanocatalyst
    Authors: R. Ali, L. Shiri
    Year: 2025

  8. Title: Magnetic Nanoparticles in the Treatment of Dental and Oral Diseases: A Brief Review of Their Use as Drug Carriers
    Authors: R. Ali, Z.F.A.L. Sultani, M.N. Al-Delfi
    Year: 2024

  9. Title: Determination of Trace Levels of Cu²⁺ Using Ultrasonicated Dispersive Liquid Phase Microextraction Based on Deep Eutectic Solvents Followed by Flame Atomic Absorption Spectrometry
    Authors: M. Shahinfar, R. Alsaeedi, Z. Ahmadabadi, M. Masrournia
    Year: Not provided