Scientist at NAtional Institute , India
A seasoned medicinal chemist with over 20 years of experience,Dr. Srikant Bhagat has contributed extensively to synthetic, medicinal, and analytical chemistry. Holding a Ph.D. from NIPER, Punjab, they specialize in organophosphorus chemistry, SAR studies, and lead optimization. [Name] has spearheaded the design and synthesis of novel heterocycles and NCEs targeting various diseases, including anti-cancer, anti-diabetic, and anti-infective applications. As a Scientist (Grade I) at NIPER, they mentor students, conduct research, and manage laboratory operations. Their work emphasizes green synthesis methodologies and rational drug design.
Publication Profile
scholar
🎓 EducationÂ
Ph.D. in Medicinal Chemistry (2009): NIPER, Punjab (CGPA 9.31/10) – Focus on α-Aminophosphonates and α-Hydroxyphosphonates synthesis.PG Diploma in Chemoinformatics (2004): Institute for Chemoinformatics Studies, Noida – A+ Grade.M.Sc. Chemistry (1996): T. M. Bhagalpur University – 1st Class, Major in Organic Chemistry.B.Sc. Chemistry (1994): T. M. Bhagalpur University – 1st Class, Major in Chemistry.
đź’Ľ ExperienceÂ
Scientist (Grade I): NIPER, Mohali (2011 – Present)Research Adviser: Unimark Remedies Ltd. (2010 – 2012)Scientist (Grade II): NIPER, Mohali (2006 – 2011)Technical Assistant: NIPER, Mohali (1997 – 2004)
🏅 Awards and HonorsÂ
Awarded prestigious fellowships and grants for advancing medicinal chemistry.Keynote speaker at international symposiums on drug discovery.Recognized for contributions to green chemistry and API development.Honored by NIPER for mentoring and academic excellence.
🔍 Research FocusÂ
Design and synthesis of organophosphorus compounds and heterocycles.Green methodologies for API development.Novel anti-cancer, anti-tuberculosis, and anti-inflammatory agents.Database generation for drug discovery and combinatorial chemistry.
Publications đź“–
Kabachnik–Fields Reaction (2007)
Efficient synthesis of α-aminophosphonates using aldehydes/ketones, amines, and phosphites.
Published in The Journal of Organic Chemistry.
Citations: 389
Magnesium Perchlorate Catalysis (2004)
Catalyst for imines and phenylhydrazones synthesis.
Tetrahedron Letters.
Citations: 248
Zirconium (IV) Catalysis (2008)
Efficient α-aminophosphonates synthesis.
The Journal of Organic Chemistry.
Citations: 180
Protic Acid on Solid Supports (2013)
Enhanced catalytic synthesis of thiazolidin-4-ones.
Green Chemistry.
Citations: 136
Microwave-Assisted Benzothiazoles (2004)
Direct condensation of carboxylic acids with 2-aminothiophenol.
Synlett.
Citations: 118
LiOH·H2O as Catalyst (2006)
Claisen–Schmidt condensation for diaryl-2-propenones.
Journal of Molecular Catalysis A: Chemical.
Citations: 111
Conclusion
The candidate’s extensive experience, innovative contributions to synthetic and medicinal chemistry, and leadership in academia and industry make them a strong contender for the Best Researcher Award. Highlighting specific publications, patents, and funding achievements can further bolster their nomination, enhancing the overall presentation of their scientific excellence.