D
Dennis Desheng Meng
Researcher at Michigan Technological University
Publications - 38
Citations - 1860
Dennis Desheng Meng is an academic researcher from Michigan Technological University. The author has contributed to research in topics: Electrophoretic deposition & Nanorod. The author has an hindex of 18, co-authored 38 publications receiving 1645 citations. Previous affiliations of Dennis Desheng Meng include University of Texas at Arlington & University of California, Los Angeles.
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Journal ArticleDOI
Hydrophilic and superhydrophilic surfaces and materials
TL;DR: The definition of superhydrophilic substrates has not been clarified yet, and unrestricted use of this term to hydrophilic surfaces has stirred controversy in the surface chemistry community.
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Asynchronous Crystal Cell Expansion during Lithiation of K+-Stabilized α-MnO2
Yifei Yuan,Yifei Yuan,Anmin Nie,Gregory M. Odegard,Rui Xu,Dehua Zhou,Sunand Santhanagopalan,Sunand Santhanagopalan,Kun He,Kun He,Hasti Asayesh-Ardakani,Dennis Desheng Meng,Dennis Desheng Meng,Robert F. Klie,Christopher S. Johnson,Jun Lu,Reza Shahbazian-Yassar +16 more
TL;DR: Findings provide fundamental understanding for appearance of stepwise potential variation during the discharge of Li/α-MnO2 batteries as well as the origin for low practical capacity and fast capacity fading of α-MmO2 as an intercalated electrode.
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A degassing plate with hydrophobic bubble capture and distributed venting for microfluidic devices
TL;DR: In this paper, a microfluidic wall plate is designed to capture gas bubbles preferentially on designated venting sites, so that the rest of the surface can be dedicated to other functions, such as the catalyst or electrodes.
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Superhydrophilic Surfaces for Antifogging and Antifouling Microfluidic Devices
TL;DR: In this article, super-hydrophilic surfaces are investigated for their potential to provide antifogging and antifouling properties for microfluidic devices, including polyester films treated by oxygen plasma and indium tin oxide-coated glasses.
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Scalable High-Power Redox Capacitors with Aligned Nanoforests of Crystalline MnO2 Nanorods by High Voltage Electrophoretic Deposition
TL;DR: The synergetic advantages of combining the high crystallinity of hydrothermally synthesized α-MnO2 nanorods with alignment for high performance redox capacitors for reduction-oxidation (redox) capacitors are reported.