![]() Pranab Sarker, Md Symon Jahan Sajib, Xiuping Tao*, Tao Wei* "Multiscale Simulation of Protein Corona Formation on Silver Nanoparticles: Study of Ovispirin-1 Peptide Adsorption" Journal of Physical Chemistry, B, DOI: 10.1021/acs.jpcb.1c08267 Strong Surface Hydration and Salt Resistant Mechanism of a New Nonfouling Zwitterionic Polymer Based on Protein Stabilizer TMAO Related Articles Multiscale Simulation of Protein Corona Formation on Silver Nanoparticles: Study of Ovispirin-1 Peptide Adsorption Our projects have been supported with grants from different agencies including NSF CAREER Award.More details about my research projects and laboratory can be found at the External Website: taoweilab . Our recent research projects about biosensor development (surface enhance Raman and dielectric spectroscopy spectrum) and the fundamental studies of bio-nano interactions and abiotic-biotic interfacial Redox have been funded by NSF, NASA and DoD. Besides the visiting PhD student, three PhDs and two masters have been graduated with the above listed projects.Our research projects were reported as a feature story in the annual highlight book published by NSF/XSEDE in 2018. Based on the fundamental studies, my lab is working on four specific areas: 1) biomaterials (antibiofouling materials, peptide mimics/proteins, DNA/RNA/nucleic acids and lipids) and biotechniques (biosensors, drug delivery, bioremediation and bioenergy) 2) polymer-nanoparticle composite materials for water treatment and semiconducting polymers for polymer photovoltaics 3) low-dimensional or nanoporous materials (such as graphene sheets, CNT, zeolites and MOFs) for biosensing, energy and pollution control (water/air) 4) materials at severe conditions (such as high temperature and high pressure) for energy applications. To achieve process-structure-function design, we combine our house-developed multiscale simulation framework (quantum, atomistic, mesoscopic and continuum scales) with theories (Statistical Mechanics and quantum), machine learning and experiments at the interface between chemistry, physics and biology. My lab focuses on fundamental studies of interfacial phenomena (adsorption, docking, charge transfer, self-assembling and complex gas-surface or liquid-surface chemical reactions) for the purpose of developing functional materials and biotechnologies to tackle challenges in health, energy and environment. Wei's research laboratory can be found: taoweilab.Įxpertise Bio-Nano interface, Functional Materials Design, Biotechnologies, Computational Materials Science, Chemistry and Biology ![]() His laboratory has received grants from different agencies (NSF, ONR, NASA, DoE, etc.) for $3.43 million within recent 5 years ($2.83 million within recent 3 years). His research was reported in a feature story in the annual highlight book published by XSEDE in 2018. His research focuses on bio- and nano- materials by using the combination of multiscale simulations, theory, experiments and machine learning. Three PhDs and two masters have been graduated from Dr. Wei has also served the Doctoral and Master’s Committees for over 39 graduate students. Wei has chaired / co-chaired multiple AICHE and ACS conference sessions about materials simulation, machine learning, nanoparticles, colloids, surfactants, biomaterials and interfaces, served as a reviewer for various journals of ACS and AIP, and NSF proposal review panels in 2016-2020. He the recipient of NSF CAREER Award and is a member of AICHE, APS, ACS and BPS, and a senior member of Sigma Xi. Tao Wei had his PhD from the University of Southern California in Chemical Engineering and Materials Science.
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