Problem Solver

Sudhir Bhatt

Areas Sudhir Bhatt is Knowledgeable in:

• Plasma Physics, Plasma Chemistry and Plasma Processing
• Plasma Polymerization and Co-polymerization
• Design, Development & Application of Low pressure PECVD and Atmospheric Pressure Plasma Sources for surface treatment and thin film formation
• Plasma diagnostics
• Thin film deposition and characterization techniques
• Plasma Medicine: Plasmas for Biomaterial treatment
• Electronics & Optoelectronics
• Non Conventional Energy system development and utilization.e.g Solar cell

Techniques Sudhir Bhatt Uses:

-I used to accept the ownership for any kind of technical problems
-I believe in literature survey
-I am Involving people familiar with the problem
-I do communicate with all the members of the project very frequently to get aware with updates

Sudhir Bhatt's Problem Solving Skills:

  1. Thin Film Coating,Plasma Surface Treatment,Plasma Diagnostics,Antifouling/Antimicrobial coatings, Drug Delivery Systems

Sudhir Bhatt's Problem Solving Experience:

  1. I developed nano thick, amphiphilic and biodegradable coatings by catalyst free ROP of ε-caprolactone (ε-CL), in the presence of Diethylene Glycol Methyl Ether (DEGME) via single step soft plasma polymerization process for the biological application.
  2. I explored the role of multilayer biodegradable and biocompatible plasma polymers for anti cancer drug release and programmed death of ovarian carcinoma cancer cells (NIH:OVCAR-3) have been quantified with cell culture time.
  3. I developed intensive expertise for plasma reactor design, fabrication, plasma diagnostics, thin film deposition and characterization of plasma deposited coatings by different techniques such as Fourier Transform IR Spectroscopy (FTIR-ATR), X ray Photon Spectroscopy (XPS), Atomic Force Microscopy (AFM), Scanning Electron Microscopy (SEM), NMR, MALDI ToF SIMS etc
  4. I designed, developed and optimized an open-air atmospheric pressure argon plasma jet (APAPJ) working at low frequency for the deposition of polymer coatings such as PEG like and acrylic acid for biomedical applications.
  5. I have deposited different compositions of statistically designed copolymer coatings with optimum surface energy (~25 mJ/m2) with their amphiphilic behavior and ability to repel the proteins have been verified for two bovine serum albumin (BSA) and lysozyme by QCM measurements.
  6. I designed and developed low pressure inductively excited plasma systems for deposition of amphiphilic co-polymer coatings for antifouling applications