[5] Nitrogen-inserted nickel nanosheets with controlled orbital hybridization and strain fields for boosted hydrogen oxidation in alkaline electrolytes.
X. Zhao; X. Y. Li; L. L. An; K. Iputera; J. Zhu; P. F. Gao; R. S. Liu;* Z. M. Peng;* J. L. Yang;* D. L. Wang*
Energy & Environmental Science 2022, 15, 1234.
[4] Controlling the valence-electron arrangement of nickel active centers for efficient hydrogen oxidation electrocatalysis.
X. Zhao; X. Y. Li; L. L. An; L. R. Zheng;* J. L. Yang;* D. L. Wang*
Angewandte Chemie International Edition 2022, 61, e202206588.
[3] Atomic-level insight into reasonable design of metal-based catalysts for hydrogen oxidation in alkaline electrolytes.
L. L. An; X. Zhao*; T. Zhao; D. L. Wang*
Energy & Environmental Science 2021, 14, 2620.
[2] Engineering the electrical conductivity of lamellar silver-doped cobalt(II) selenide nanobelts for enhanced oxygen evolution.
X. Zhao; H. T. Zhang; Y. Yan; J. H. Cao; X. Q. Li; S. M. Zhou; Z. M. Peng;* J. Zeng*
Angewandte Chemie International Edition 2017, 56, 328.
[1] Octahedral Pd@Pt1.8Ni core-shell nanocrystals with ultrathin PtNi alloy shells as active catalysts for oxygen reduction reaction.
X. Zhao; S. Chen; Z. C. Fang; J. Ding; W. Sang; Y. C. Wang; J. Zhao; Z. M. Peng;* J. Zeng*
Journal of the American Chemical Society 2015, 137, 2804.