Enhanced flow boiling enabled by efficient two-phase transport
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Efficient Thermal-fluid Transports

What's New
2021/08  I moved back to China and joined Southest University as a full professor in the school of Energy and Environment.
2020/12 Two papers were published in IJHMT and Langmuir, respectively.
2020/10/21 I was invited to a guest lecture of flow boiling for graduate course of Phase Change Heat Transfer Fall 2020 (Invited by Dr. Xianming Dai) at UT Dallas
2020/09   A new paper about capillary-assisted evaporation/boiling in PDMS microchannel             integrated with wick microstructure was published on Langmuir, DOI: 10.1021/acs.langmuir.0c01711
2020/01 A paper about Achieving Phase-change Heat Transfer Limit of Flow Boiling in Microchannel was published in Advanced Materials (impact factor of 27.5) Link.
2019/04    Joined Prof. Yogendra Joshi's research group as a Postdoctoral Fellow at Georgia Tech.
2018/05    Joined Prof. Mark Meacham's research group as a Postdoctoral Research Associate at Washington University in St. Louis.

Research Highlights:

PictureSupercapillary Architecture‐Activated Two‐Phase Boundary Layer Structures for Highly Stable and Efficient Flow Boiling Heat Transfer (Adv. Mater. 2/2020)
​The physical limit of flow boiling heat transfer is reported by Wenming Li and coworkers. Textured supercapillary structures are designed in a microfluidic device to fundamentally transform the conventional chaotic phase‐transition process into a desirable two‐phase boundary layer structure. Exceptional thermal performances are achieved.

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