Dr. Prasanta Roy is an accomplished researcher in synthetic organic chemistry, specializing in asymmetric synthesis, catalytic transformations, and bioactive molecule synthesis. With extensive postdoctoral experience across leading institutions in China, India, and South Korea, he has contributed significantly to organic synthesis through innovative methodologies. His expertise spans N-heterocycle synthesis, enantioselective transformations, and transition metal-catalyzed reactions. Currently serving as an Assistant Professor at Yeungnam University, he continues to advance research in transition metal-catalyzed C-H activation and annulation reactions. Dr. Roy’s international research collaborations and academic contributions underscore his commitment to advancing the field of organic chemistry.
Professional Profile
Education
Dr. Prasanta Roy earned his Ph.D. in Synthetic Organic Chemistry from the Indian Institute of Technology (IIT) Guwahati in 2016, where he worked on copper oxide nanoparticle-assisted synthesis of 1,4-triazoles and N-heterocycles under the supervision of Prof. A. T. Khan and Prof. Bhisma Kumar Patel. He completed his M.Sc. in Organic Chemistry from Visva-Bharati University in 2010 and his B.Sc. in Chemistry from the University of Burdwan in 2008. His academic journey reflects a strong foundation in organic synthesis, enabling him to develop expertise in asymmetric catalysis, multicomponent reactions, and medicinal chemistry, which have remained central to his research contributions.
Professional Experience
Dr. Roy has held multiple prestigious research positions globally. He began his postdoctoral research at the Chinese Academy of Sciences (2016-2018), focusing on asymmetric synthesis and kinetic resolution strategies. He later joined Yunnan University (2019-2021), where he worked on bioactive molecule synthesis and medicinal chemistry. At IIT Kanpur (2021-2022), he specialized in dynamic kinetic resolution and asymmetric organic synthesis. From 2022 to early 2024, he contributed to transition metal-catalyzed organic synthesis at Yeungnam University, South Korea. In March 2024, he was appointed as an Assistant Professor at Yeungnam University, continuing his work in catalysis and organic synthesis.
Research Interests
Dr. Roy’s research focuses on synthetic organic chemistry, particularly in asymmetric synthesis, transition metal-catalyzed reactions, and medicinal chemistry. He is particularly interested in developing new methodologies for enantioselective transformations, asymmetric transfer hydrogenation, and C-H bond activation. His work also extends to multicomponent reactions for the synthesis of heterocyclic compounds, with applications in drug discovery and pharmaceutical chemistry. His interdisciplinary approach integrates nanocatalysis and organocatalysis to create sustainable and efficient synthetic routes for complex organic molecules.
Research Skills
Dr. Roy possesses advanced skills in organic synthesis, asymmetric catalysis, transition metal-catalyzed transformations, and kinetic resolution. He is proficient in various chromatographic and spectroscopic techniques, including NMR, HPLC, and mass spectrometry, essential for structural elucidation and reaction optimization. His expertise in computational chemistry and mechanistic studies enables him to design novel catalysts and reaction pathways. Additionally, he has experience in medicinal chemistry, focusing on synthesizing bioactive compounds with potential pharmaceutical applications. His multidisciplinary research approach combines synthetic methodologies with analytical techniques to develop efficient and selective chemical transformations.
Awards and Honors
Dr. Roy’s contributions to organic chemistry have been recognized through various fellowships and research grants. He has received postdoctoral fellowships from the Chinese Academy of Sciences and IIT Kanpur. His work in asymmetric catalysis and bioactive molecule synthesis has been published in reputed international journals. As an emerging leader in organic synthesis, he has actively contributed to academic conferences, presenting his research at international symposiums. His recognition in the field continues to grow, reflecting his impact on synthetic methodologies and catalysis.
Conclusion
Dr. Prasanta Roy is a distinguished researcher in synthetic organic chemistry with a strong international research background. His expertise in asymmetric synthesis, transition metal catalysis, and medicinal chemistry positions him as a leading contributor to modern organic synthesis. With an extensive postdoctoral research portfolio and recent appointment as an Assistant Professor, he continues to advance research in catalysis and sustainable chemical transformations. Strengthening his publication impact, securing independent research grants, and expanding his mentorship activities will further enhance his academic and professional contributions. His dedication to innovative organic synthesis methodologies makes him a strong candidate for research excellence recognition.
Publication Top Notes
-
Synthesis of tetra-substituted pyrroles, a potential phosphodiesterase 4B inhibitor, through nickel (II) chloride hexahydrate catalyzed one-pot four-component reaction
- Authors: AT Khan, M Lal, PR Bagdi, RS Basha, P Saravanan, S Patra
- Journal: Tetrahedron Letters
- Volume: 53
- Issue: 32
- Pages: 4145-4150
- Year: 2012
- Citations: 93
-
Camphorsulfonic acid catalyzed one-pot three-component reaction for the synthesis of fused quinoline and benzoquinoline derivatives
- Authors: R Gattu, PR Bagdi, RS Basha, AT Khan
- Journal: The Journal of Organic Chemistry
- Volume: 82
- Issue: 23
- Pages: 12416-12429
- Year: 2017
- Citations: 35
-
An oxidative cross-coupling reaction of 4-hydroxydithiocoumarin and amines/thiols using a combination of I₂ and TBHP: Access to lead molecules for biomedical applications
- Authors: K Mahato, N Arora, PR Bagdi, R Gattu, SS Ghosh, AT Khan
- Journal: Chemical Communications
- Volume: 54
- Issue: 12
- Pages: 1513-1516
- Year: 2018
- Citations: 28
-
Access to enantioenriched compounds bearing challenging tetrasubstituted stereocenters via kinetic resolution of auxiliary adjacent alcohols
- Authors: S Niu, H Zhang, W Xu, PR Bagdi, G Zhang, J Liu, S Yang, X Fang
- Journal: Nature Communications
- Volume: 12
- Article Number: 3735
- Year: 2021
- Citations: 19
-
Copper oxide nanoparticle mediated ‘click chemistry’ for the synthesis of mono-, bis- and tris-triazole derivatives from 10,10-dipropargyl-9-anthrone as a key building block
- Authors: PR Bagdi, RS Basha, PK Baruah, AT Khan
- Journal: RSC Advances
- Volume: 4
- Issue: 21
- Pages: 10652-10659
- Year: 2014
- Citations: 17
-
One-pot three-component regioselective synthesis of C1-functionalised 3-arylbenzo[f]quinoline
- Authors: R Gattu, RS Basha, PR Bagdi, AT Khan
- Journal: RSC Advances
- Volume: 6
- Issue: 14
- Pages: 11675-11682
- Year: 2016
- Citations: 16
-
Synthesis of 2-triazolyl-imidazo[1,2-a]pyridine through a one-pot three-component reaction using a nano copper oxide assisted click-catalyst
- Authors: PR Bagdi, RS Basha, AT Khan
- Journal: RSC Advances
- Volume: 5
- Issue: 75
- Pages: 61337-61344
- Year: 2015
- Citations: 16
-
Stereodivergent access to enantioenriched epoxy alcohols with three stereogenic centers via ruthenium-catalyzed transfer hydrogenation
- Authors: Z Zhao, PR Bagdi, S Yang, J Liu, W Xu, X Fang
- Journal: Organic Letters
- Volume: 21
- Issue: 14
- Pages: 5491-5494
- Year: 2019
- Citations: 13
-
K₂CO₃ catalyzed regioselective synthesis of thieno[2,3-b]thiochromen-4-one oximes: Access to the corresponding amine and nitroso derivatives
- Authors: K Mahato, PR Bagdi, AT Khan
- Journal: Organic & Biomolecular Chemistry
- Volume: 15
- Issue: 26
- Pages: 5625-5634
- Year: 2017