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Pinwen Zhu
Researcher at Jilin University
Publications - 128
Citations - 1843
Pinwen Zhu is an academic researcher from Jilin University. The author has contributed to research in topics: Vickers hardness test & Phase (matter). The author has an hindex of 20, co-authored 110 publications receiving 1355 citations. Previous affiliations of Pinwen Zhu include National Institute for Materials Science.
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Highly Active, Nonprecious Electrocatalyst Comprising Borophene Subunits for the Hydrogen Evolution Reaction
Yanli Chen,Guangtao Yu,Wei Chen,Yipu Liu,Guo-Dong Li,Pinwen Zhu,Qiang Tao,Qiuju Li,Jingwei Liu,Xiaopeng Shen,Hui Li,Xuri Huang,Dejun Wang,Tewodros Asefa,Xiaoxin Zou +14 more
TL;DR: The theoretical and experimental results show α-MoB2's catalytic activity, especially at large current densities, is due to its high conductivity, large density of efficient catalytic active sites and good mass transport property.
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Exploring Hardness and the Distorted sp2 Hybridization of B–B Bonds in WB3
Qiang Tao,Dafang Zheng,Xueping Zhao,Yanli Chen,Quan Li,Qian Li,Changchun Wang,Tian Cui,Yanming Ma,Xin Wang,Pinwen Zhu +10 more
TL;DR: In this article, tungsten triboride (WB3) was successfully synthesized at high pressure and high temperature and the structure was reconfirmed to be WB3 (P63mmc).
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Ultrastrong Boron Frameworks in ZrB12 : A Highway for Electron Conducting.
Teng Ma,Teng Ma,Hui Li,Xu Zheng,Shanmin Wang,Xiancheng Wang,Huaizhou Zhao,Songbai Han,Jian Liu,Ruifeng Zhang,Pinwen Zhu,Youwen Long,Jinguang Cheng,Yanming Ma,Yusheng Zhao,Changqing Jin,Xiaohui Yu +16 more
TL;DR: ZrB12, with a high symmetrical cubic structure, possesses both high hardness and ultralow electrical resistivity and is associated with the extended BB 3D covalent bonding network as it is not only favorable for achieving high hardness, but also provides conducting channels for transporting electrons.
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Ferromagnetic Sc-doped AlN sixfold-symmetrical hierarchical nanostructures
TL;DR: In this paper, sixfold-symmetrical hierarchical nanostructures were grown by direct current (dc) arc discharge plasma method using the direct reaction of Al and Sc metals with N2 gas.
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Synthesis of diamond with high nitrogen concentration from powder catalyst-C-additive NaN3 by HPHT
TL;DR: In this article, a cubic anvil high-pressure and high-temperature apparatus was used to synthesize diamond crystals with high nitrogen concentration, 1000-2000 ppm, from the system of powdercatalyst (Fe-Ni)-C-additive NaN 3 additive.