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zhen_li [2016/09/21 14:07] zl25 [Zhen Li] |
zhen_li [2016/09/21 14:09] zl25 [Zhen Li] |
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**NEWS:** A website of DPD Forum ([[http://www.dpdforum.org/|www.dpdforum.org]]) has been created to serve the DPD community for free. Its Virtual Resource Center provides lots of useful information and materials for researchers who are working on or are considering working on mesoscopic modeling. Details see [[http://www.dpdforum.org/|http://www.dpdforum.org/]]. | **NEWS:** A website of DPD Forum ([[http://www.dpdforum.org/|www.dpdforum.org]]) has been created to serve the DPD community for free. Its Virtual Resource Center provides lots of useful information and materials for researchers who are working on or are considering working on mesoscopic modeling. Details see [[http://www.dpdforum.org/|http://www.dpdforum.org/]]. | ||
- | Zhen Li is currently a postdoctoral research associate in the //CRUNCH// group of Brown University. He received his Ph.D. in Fluid Mechanics in 2011 from Shanghai University after having his B.S. in Engineering Mechanics from Wuhan University in 2005. | + | Zhen Li is currently a research assistant professor in the //CRUNCH// group of Brown University. He received his Ph.D. in Fluid Mechanics in 2011 from Shanghai University after having his B.S. in Engineering Mechanics from Wuhan University in 2005. |
Zhen Li's researches on fluid mechanics and applied mathematics focus on complex fluids and complex flows, typically on small scales. He models complex fluids by Lagrangian methods, including molecular dynamics (MD), dissipative particle dynamics (DPD), smoothed dissipative particle dynamics (SDPD) and smoothed particle hydrodynamics (SPH), and studies the dynamics in nano-/microfluidic systems as well as biological and biomedical fluid dynamics. | Zhen Li's researches on fluid mechanics and applied mathematics focus on complex fluids and complex flows, typically on small scales. He models complex fluids by Lagrangian methods, including molecular dynamics (MD), dissipative particle dynamics (DPD), smoothed dissipative particle dynamics (SDPD) and smoothed particle hydrodynamics (SPH), and studies the dynamics in nano-/microfluidic systems as well as biological and biomedical fluid dynamics. |