A General Dual-Metal Nanocrystal Dissociation Strategy to Generate Robust High-Temperature-Stable Alumina-Supported Single-Atom Catalysts
Zhiquan Hou(Beijing University of Technology), Yadong Li(Shanxi Medical University), Dingsheng Wang(Tsinghua University), Zeya Li(Quantum Science Center of Guangdong-Hong Kong-Macao Greater Bay Area), Ning Liu(Beijing University of Technology), Yue Lu(Beijing University of Technology), Manling Sui(Beijing University of Technology), Jingcong Hu(Beijing University of Technology), Yuan Ping Feng(National University of Singapore), Ruyi Gao(Beijing University of Technology), Yuxi Liu(Beijing University of Technology), Jiguang Deng(Beijing University of Technology), Lu Wei(Beijing University of Technology), Xiaohui Yu(Beijing University of Technology), Xinrong Tian(Beijing University of Technology), Hongxing Dai(Beijing University of Technology), Linke Wu(Beijing University of Technology)
Cited by 85
Related Papers
Highly Crystalline Multimetallic Nanoframes with Three-Dimensional Electrocatalytic Surfaces
|Science|2014|2.8k
Isolated Single Iron Atoms Anchored on N‐Doped Porous Carbon as an Efficient Electrocatalyst for the Oxygen Reduction Reaction
|Angewandte Chemie International Edition|2017|2k
Core–Shell ZIF-8@ZIF-67-Derived CoP Nanoparticle-Embedded N-Doped Carbon Nanotube Hollow Polyhedron for Efficient Overall Water Splitting
|Journal of the American Chemical Society|2018|1.9k
Chemical Synthesis of Single Atomic Site Catalysts
|Chemical Reviews|2020|1.4k