the khalili biophysics lab

The Khalili Biophysics Lab utilizes physics-based simulations of organic systems to computationally investigate an array of research questions ranging from materials for energy storage to drug design and docking.

the khalili biophysics lab

The Khalili Biophysics Lab utilizes physics-based simulations of organic systems to computationally investigate an array of research questions ranging from materials for energy storage to drug design and docking.

computational
biophysics research

Tight Junctions

Tight Junctions

Tight Junctions
Claudin Ion Channels

Claudin Ion Channels

Ion Channels
Drug Design and Docking

Drug Design and Docking

Drug Design
Materials for Energy Storage

Materials for Energy Storage

Materials for Energy Storage

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Claudin-2 limits pancreatitis development through regulating tight junction-controlled pancreatic ductal transport

Claudin-2 limits pancreatitis development through regulating tight junction-controlled pancreatic ductal transport, S Kesaraju, Y Li, M Tracy, K Wannemo, J Kainov, N Rana, M Sidahmed, S Hyoju, L Smith, J Matthews, S Tay, F Khalili-Araghi, M Rana, SA Oakes, L. Shen, CR Weber, bioRxiv 2023.09.01.555960 (2023)

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Molecular dynamics analyses of CLDN15 pore size and charge selectivity

Molecular dynamics analyses of CLDN15 pore size and charge selectivity
S McGuinness, P Li, Y Li, S Fuladi, S Konar, S Bafghi, M Sidahmed, Y Li, L. Shen, F Khalili-Araghi, CR Weber, bioRxiv, 2023.08. 16.553400 (2023)

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Phase Separation and Ion Diffusion in Ionic Liquid, Organic Solvent, and Lithium Salt Electrolyte Mixtures

Phase Separation and Ion Diffusion in Ionic Liquid, Organic Solvent, and Lithium Salt Electrolyte Mixtures, H Gholivand, A Salehi-Khojin, F Khalili-Araghi The Journal of Physical Chemistry B 127 (34), 7531-7541 (2023)

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