Flux Lab

Welcome!

The Flux Lab delves into the intriguing transport phenomena, described by three parameters: flux (which also lends our group its name!), potential gradient, and resistance. To illustrate, consider heat transfer, where the heat flux results from the temperature gradient and thermal resistance. Similarly, fluid flow, diffusion, and ionic current density are associated with pressure, concentration, and voltage gradients, respectively. We explore and tailor diverse transport phenomena, with innovative interface and material engineering, to tackle the pressing challenges in sustainable water and energy domains. 

 

Flux Lab

Department of Mechanical & Aerospace Engineering, University of Florida

Welcome!

The Flux Lab delves into the intriguing transport phenomena, described by three parameters: flux (which also lends our group its name!), potential gradient, and resistance. To illustrate, consider heat transfer, where the heat flux results from the temperature gradient and thermal resistance. Similarly, fluid flow, diffusion, and ionic current density are associated with pressure, concentration, and voltage gradients, respectively. We explore and tailor diverse transport phenomena, with innovative interface and material engineering, to tackle the pressing challenges in sustainable water and energy domains. 

 

10/2023

Open Positions:  We are looking for two PhD students for 2024! Please contact Youngsup for more information.

05/2023

?Youngsup will join the Department of Mechanical & Aerospace Engineering at the University of Florida in January 2024.

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