My general research interest encompasses multiscale methods and simulations. I have an enormous interest in various aspects of nanotechnology inspired by biology, medicine and engineering. In particular, developing and improving experimentally validated predictive science-based modeling and simulation efforts to elucidate and characterize molecular modulation of cell function. I am also interested in developing and optimizing computational methods using parallel programming. In the future, I hope to be able to focus on developing integrated multiscale multiprocessor software analysis modules competent of evaluating nano- and micro- fluidic systems, optical-electronic devices, implantable sensors, smart medicines, microscopic machines and other biomedical devices that can be later integrated into commercial software providing powerful methodologies.

simulation techniques, parallel computing, immersed finite element method, micro- nano- fluidics, computational biology

Present research activites also include:

• Computational simulation of focal adhesion in vascular endothelial cells