Z
Zhongli Wang
Researcher at National Institute for Materials Science
Publications - 73
Citations - 11114
Zhongli Wang is an academic researcher from National Institute for Materials Science. The author has contributed to research in topics: Catalysis & Chemistry. The author has an hindex of 39, co-authored 58 publications receiving 9195 citations. Previous affiliations of Zhongli Wang include Chinese Academy of Sciences.
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Oxygen electrocatalysts in metal–air batteries: from aqueous to nonaqueous electrolytes
TL;DR: This review focuses on the major obstacle of sluggish kinetics of the cathode in both batteries, and summary the fundamentals and recent advances related to the oxygen catalyst materials, and several future research directions are proposed based on the results achieved.
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Nanoarchitectonics for Transition-Metal-Sulfide-Based Electrocatalysts for Water Splitting.
Yanna Guo,Yanna Guo,Teahoon Park,Jin Woo Yi,Joel Henzie,Jeonghun Kim,Zhongli Wang,Bo Jiang,Yoshio Bando,Yoshiyuki Sugahara,Jing Tang,Yusuke Yamauchi +11 more
TL;DR: Insightful insights gathered in the process of studying TMS are provided, and valuable guidelines for engineering other kinds of nanomaterial catalysts for energy conversion and storage technologies are described.
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Integrated Three-Dimensional Carbon Paper/Carbon Tubes/Cobalt-Sulfide Sheets as an Efficient Electrode for Overall Water Splitting.
TL;DR: Carbon paper/carbon tubes/cobalt-sulfide is introduced as an integrated three-dimensional array electrode for cost-effective and energy-efficient HER and OER in alkaline medium and displays superior performance compared to non-noble metal catalysts reported previously.
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Tailoring deposition and morphology of discharge products towards high-rate and long-life lithium-oxygen batteries
TL;DR: A free-standing honeycomb-like palladium-modified hollow spherical carbon deposited onto carbon paper is reported, as a cathode for a lithium-oxygen battery, capable of operation with high-rate and long-term operation and offers hope to design more advanced cathode architectures for lithium- Oxygen batteries.
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Synthesis of Perovskite‐Based Porous La0.75Sr0.25MnO3 Nanotubes as a Highly Efficient Electrocatalyst for Rechargeable Lithium–Oxygen Batteries
TL;DR: A facile, effective, and scalable strategy for preparing perovskite-based porous La0.75Sr0.25MnO3 nanotubes (PNT-LSM) by combining the electrospinning technique with a heating method is proposed and realized.