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Xuehu Ma
Researcher at Dalian University of Technology
Publications - 168
Citations - 5951
Xuehu Ma is an academic researcher from Dalian University of Technology. The author has contributed to research in topics: Heat transfer & Condensation. The author has an hindex of 38, co-authored 168 publications receiving 4608 citations.
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Adipose-derived stem cell: a better stem cell than BMSC
TL;DR: To further study the proliferation and multi‐differentiation potentials of adipose‐derived stem cells (ADSCs), the cells were isolated with improved methods and their growth curves were achieved with cck‐8 and they still keep strong proliferation ability, maintain their phenotypes, and have stronger multi‐ differentiation potential after 25 passages.
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Three-Dimensional Superhydrophobic Nanowire Networks for Enhancing Condensation Heat Transfer
TL;DR: In this article, a stable and efficient jumping droplet condensation on a superhydrophobic surface with three-dimensional (3D) copper nanowire networks was demonstrated for the first time.
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Hydrophobic copper nanowires for enhancing condensation heat transfer
Rongfu Wen,Rongfu Wen,Qian Li,Jiafeng Wu,Jiafeng Wu,Gensheng Wu,Gensheng Wu,Wei Wang,Wei Wang,Yunfei Chen,Xuehu Ma,Dongliang Zhao,Ronggui Yang +12 more
TL;DR: In this paper, the authors demonstrate enhanced condensation heat transfer on a nanowired hydrophobic copper surface where molecular permeation of water vapor into the separations between nanowires is greatly decreased, rendering spatial control on droplet nucleation and wetting dynamics.
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Liquid-Vapor Phase-Change Heat Transfer on Functionalized Nanowired Surfaces and Beyond
TL;DR: An overview of liquid-vapor phase-change heat transfer enhancement on functionalized nanowired surfaces, as well as other promising strategies and surfaces can be found in this article.
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Condensation heat transfer enhancement in the presence of non-condensable gas using the interfacial effect of dropwise condensation
TL;DR: In this article, a fluorocarbon coating was applied to promote drop-wise condensation mode, which is attributed to the liquid-vapor interfacial perturbation motion caused by coalescence and departure of droplets.