Cost-effective Automated Genomic Based Microbial Analyzer: A Case Study on Breast Cancer

High Throughput NMR Spectroscopy: The goal of this project is the design and implementation of CMOS based microfluidic/microelectronic NMR spectrometers for drug discovery applications.

Integrated Microfluidic CMOS (imCMOS) for Quantitative Biology and Point-of-care Diagnostics We examine the design and implementation of imCMOS devices for quantitative analysis of cells in culture using multiple integrated sensors such as capacitive electrodes and Ion selective biology ISFETs.

Supperparamagnetic Nanoparticles as Nanocarriers for Crossing Blood Brain Barrier and Aggregating in Epileptic Foci: Proof of Concept and Toxicity study The main goal of this study is to test the hypothesis that label-free superparamagnetic iron oxide nanoparticles (SPIONs) can advance diagnostic and therapeutic options for the treatment of brain disorders without compromising brain functions.

Aged Macular Disease (AMD) Detection: The design and implementation of AMD point-of-care diagnostics is our main goal in this project.

In-Vitro Neuronal Studies: We study the development of novel brain disease diagnostic and subsequent treatment techniques using Super-para-magentic Nanoparticles. In this approach, we use computational and experimental (in-vitro) models.