Zhi-You Zhou
Xiamen University
248 Papers
1.1K Citations
Zhi-You Zhou is an academic researcher from Xiamen University. The author has contributed to research in topics: Catalysis & Chemistry. The author has an hindex of 54, co-authored 212 publications. Previous affiliations of Zhi-You Zhou include Georgia Institute of Technology & University of California, Santa Cruz.
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Papers
Shape‐Controlled Synthesis of Gold Nanoparticles in Deep Eutectic Solvents for Studies of Structure–Functionality Relationships in Electrocatalysis
TL;DR: National Natural Science Foundation of China [20433040, 20573085, 20673091]; "973" Program [2009CB220102]
412
Crystal Habit-Tuned Nanoplate Material of Li[Li1/3-2x/3NixMn2/3-x/3]O-2 for High-Rate Performance Lithium-Ion Batteries
Guo-Zhen Wei,Xia Lu,Fu-Sheng Ke,Ling Huang,Jun-Tao Li,Zhaoxiang Wang,Zhi-You Zhou,Shi-Gang Sun +7 more
TL;DR: The results demonstrate that the fraction of the surface that is electrochemically active for Li(+) transportation is a key criterion for evaluating the different nanostructures of potential LIB materials.
381
Platinum Metal Catalysts of High-Index Surfaces: From Single-Crystal Planes to Electrochemically Shape-Controlled Nanoparticles
TL;DR: The Natural Science Foundation of China as discussed by the authors [20673091, 20433060, 20503023, 20873113, 20833005], Mnistry of Science and Technology of China [2009CB220102, 2007DFA40890]
330
Pyrolyzed Fe–N–C Composite as an Efficient Non-precious Metal Catalyst for Oxygen Reduction Reaction in Acidic Medium
TL;DR: In this paper, a non-precious metal catalyst (NPMC) for oxygen reduction reaction (ORR) in acidic proton-exchange membrane fuel cells (PEMFCs) was prepared by pyrolyzing a composite of carbon-supported Fe-doped graphitic carbon nitride (Fe-g-C3N4@C) above 700 °C.
308
Simplifying the Creation of Hollow Metallic Nanostructures: One‐Pot Synthesis of Hollow Palladium/Platinum Single‐Crystalline Nanocubes
TL;DR: A synthetic strategy has been developed to prepare single-crystalline hollow Pd/Pt nanocubes that increase accessible surface area and therefore improve electrocatalytic activity in formic acid oxidation.
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