1. Personal Details Name in Full: Dr. Deepti N. Kurhe Designation: Assistant Professor Email: [email protected]Address for Correspondence: School of Nanoscience and Technology, ShivajiUniversity,kolhapur Permanent Address: Rajendra N. KurheRajendraKirana Stores, Near Railway Station, Sanjivani Sugar Factory, Kopergaon Tal-kopergaonDist- A. Nagar Education: M.Sc., Ph.D. (Biochemistry) URLs: https://www.researchgate.net/profile/Deepti_Kurhe https://scholar.google.co.in/citations?hl=en&user=eh1srJoAAAAJ 2. Academic Details: Examination University Month & Year of Passing Principle Subject Bachelor’s Degree (B.Sc.) Pune University June 2003 Zoology Master’s Degree (M.Sc.) Shivaji University May 2006 Biochemistry Ph.D. *, Shivaji University June 2011 Biochemistry * Title of Ph.D. Thesis: “Thermodynamic Studies of Energetics for Amino Acids and Insulin in Aqueous and Perturbed Aqueous Solutions” 3. Research Specialization Biochemical and Biophysical study Research Interest: Probing the interactions of small molecules with biopolymers is important for understanding the osmolyte effects, protein-ligand binding equilibria, drug developments etc. In this context, our work is focused on understanding physicochemical properties of biopolymer interactions with small molecules, modification of nanostructures with biofunctionalization, etc. Profile of the Teacher
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Profile of the Teacher - unishivaji.ac.in Profile_SNST_Dr...Pune University June 2003 Zoology ... Jyoti P. Jadhav, Sanjay P. Govindwar, and Kesharsingh J. Patil, ... S. P. Govindwar
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Master’s Degree (M.Sc.) Shivaji University May 2006 Biochemistry
Ph.D.*, Shivaji University June 2011 Biochemistry * Title of Ph.D. Thesis: “Thermodynamic Studies of Energetics for Amino Acids and Insulin in Aqueous and Perturbed Aqueous Solutions”
3. Research Specialization
Biochemical and Biophysical study Research Interest:
Probing the interactions of small molecules with biopolymers is important for understanding the osmolyte effects, protein-ligand binding equilibria, drug developments etc. In this context, our work is focused on understanding physicochemical properties of biopolymer interactions with small molecules, modification of nanostructures with biofunctionalization, etc.