• This project involves application of a new technique using a proteomics approach to sensitively identify molecules of therapeutic significance in Cerebral Spinal Fluid (CSF) samples.

    identification-of-novel-cell-surface-molecules-of-therapeutic-significance-in-central-nervous-system-leukemia
  • This project involves a controlled and well-characterized material process development for the preparation of carboxymethyl chitin and chitosan derivatives for applications in the biomedical area. Chitin and Chitosan are known to be natural biopolymers and are non-toxic, biodegradable and biocompatible. In the last decade, chitin and chitosan derivatives have become the focus of interest in biomedical and biopharmaceutical research.

    preparation-of-carboxymethyl-chitin-and-chitosan-derivatives
  • The focus of this project is to develop a biofuel cell that is capable of powering medical devices and mobile electronic devices. This research involves fabricating 3-D nanoengineered electrodes using CVD grown carbon nanotubes and electrodeposited nanowires, investigating the direct electron transfer between nanoelectrodes and enzyme redox center, and demonstrating the functionality of miniaturized high power density biological fuel cell.

    electro-nanoprocessing-of-semiconductor-nanotube-arrays-for-high-efficiency-photovoltaics

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