Zunyi Medical College, China
Profiles
Early Academic Pursuits
Prof. Dr. Bao-Dong Cui embarked on his academic journey in the field of chemistry by completing his undergraduate studies at the Department of Chemistry, Taishan University. With a strong inclination towards chemical sciences and a keen interest in organic synthesis, he furthered his education at the Chengdu Institute of Organic Chemistry, Chinese Academy of Sciences. Here, he pursued rigorous postgraduate research and successfully earned a doctoral degree, laying a solid foundation for his future contributions to green chemistry and pharmaceutical synthesis.
Professional Endeavors
Upon completing his doctoral studies, Prof. Cui commenced his academic career at the School of Pharmacy, Zunyi Medical University. He initially served as a lecturer, steadily advancing through the academic ranks due to his dedication to teaching and research. His professional journey within the university culminated in his appointment as a full professor, reflecting his commitment to excellence and innovation in pharmaceutical sciences.
Contributions and Research Focus
Prof. Cui’s research interests lie at the intersection of synthetic organic chemistry and sustainable pharmaceutical development. His work primarily focuses on green synthesis methods for chiral drug active molecules, employing strategies such as photocatalysis, biocatalysis, and combinatorial catalysis. In addition to exploring synthetic methodologies, he also investigates the development and application of environmentally friendly preparation processes for drug intermediates. His research addresses both theoretical and practical aspects of green chemistry, contributing to the advancement of sustainable technologies in pharmaceutical manufacturing.
Impact and Influence
Through his innovative research, Prof. Cui has significantly influenced the field of green and combinatorial catalysis. His publications in leading SCI-indexed journals—including Organic Letters, Chemical Communications, Advanced Synthesis & Catalysis, and The Journal of Organic Chemistry—demonstrate the high caliber and international recognition of his work. As either first or corresponding author, his scholarly output has made valuable contributions to the scientific community, especially in the areas of reaction design and mechanism elucidation.
Academic Citations and Intellectual Property
Prof. Cui has authored over 20 research articles in internationally respected journals, reflecting strong citation performance and scholarly impact. Furthermore, he holds five invention patents, underscoring the applied nature of his work and its relevance to industrial and pharmaceutical innovations. These patents not only demonstrate the novelty of his scientific contributions but also reinforce his role in bridging the gap between laboratory research and practical application.
Technical Skills and Scientific Expertise
Prof. Cui possesses advanced technical expertise in modern synthetic chemistry techniques, including photochemical and biocatalytic processes. His ability to design and execute multistep synthetic strategies, especially for chiral drug molecules, is a hallmark of his laboratory work. His skillset also encompasses mechanistic studies, spectral analysis, and process optimization—skills that are integral to developing efficient and scalable green chemistry solutions.
Teaching Experience and Mentorship
In his academic career, Prof. Cui has been actively involved in teaching at the undergraduate and postgraduate levels. He is deeply committed to mentoring the next generation of scientists, guiding students through research projects that integrate theoretical knowledge with experimental application. His teaching style emphasizes critical thinking, innovation, and a strong foundation in chemical principles.
Legacy and Future Contributions
Prof. Cui is recognized as a rising leader in the field of green pharmaceutical chemistry. His research legacy includes the advancement of environmentally conscious synthetic pathways and the development of practical technologies for drug synthesis. Looking forward, he is expected to continue his pioneering work in catalysis, while fostering collaborative research and contributing to global sustainability goals in medicinal chemistry. His future endeavors will likely focus on integrating interdisciplinary approaches to address emerging challenges in pharmaceutical science.
Notable Publications
Photomediated One-Pot Multicomponent Cascade Reaction for the Synthesis of N-Acyl/Sulfonyl-α-Phosphonated-1,2,3,4-Tetrahydroisoquinoline via Twice Acyl/Sulfonyl Iminium Formation
Journal: Chemistry – An Asian Journal
Year: 2025
Photoinduced Tunable Fluoroalkylation or Sulfonylation/Cyclization of Methindolylstyrenes via Electron Donor-Acceptor Complexes
Journal: Green Chemistry
Year: 2025
Electrochemical Oxidative Cascade Cyclization of Alkenyl Alcohols with External Nucleophiles to Access Amino- and Hydroxy-Functionalized O-Heterocycles
Journal: Journal of Organic Chemistry
Year: 2025
Efficient and Convenient Synthesis of Methyl (S)-5-Chloro-2-Hydroxy-1-Oxo-2,3-Dihydro-1H-Indene-2-Carboxylate: A Key Intermediate for (S)-Indoxacarb Using Aqueous TBHP as Oxidant
Journal: Reaction Chemistry and Engineering
Year: 2025
Photocatalytic Reductive Borylation, Phosphonation, Sulfurization, and Selenization of Aryl Iodides to Access Aryl Borates, Aryl Phosphates, Aryl Sulfides, and Aryl Selenides
Journal: Asian Journal of Organic Chemistry
Year: 2025