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½üÆÚµç´ß»¯·½Ïò´ú±íÐÔÂÛÎÄ£¨2019-2021£©
[1] Zhou X.L., Dong J.C., Zhu Y.H., Liu L.M., Jiao Y., Li H., Han Y., Davey K., Xu Q., Zheng Y., Qiao S.Z., A Molecular Scalpel to Chemically Cleave Metal-Organic Frameworks for Induced Phase Transition, J. Am. Chem. Soc., 2021, 143, accepted.
[2] Shan J.Q., Ye C., Chen S.M., Sun Y.T., Jiao Y., Liu L.M., Zhu C.Z., Song L., Han Y., Jaroniec M., Zhu Y.H., Zheng Y., Qiao S.Z., Short-range Ordered Iridium Single Atoms Integrated into Cobalt Oxide Spinel Structure for Highly Efficient Electrocatalytic Water Oxidation, J. Am. Chem. Soc., 2021, 143, DOI: 10.1021/jacs.1c01525.
[3] Jin H.Y., Wang X.S., Tang C., Vasileff A., Li L.Q., Slattery A., Qiao S.Z., Stable and Highly Efficient Hydrogen Evolution from Seawater Enabled by an Unsaturated Nickel Surface Nitride, Adv. Mater., 2021, DOI: 10.1002/adma.202007508
[4] Tang C., Zheng Y., Jaroniec M., Qiao S.Z., Electrocatalytic Refinery for Sustainable Production of Fuels and Chemicals, Angew. Chem. Int. Ed., 2021, 60, DOI: 10.1002/anie.202101522.
[5] Vasileff A., Zhu Y.P., Zhi X., Zhao Y.Q., Ge L., Chen H.M., Zheng Y., Qiao S.Z., Electrochemical Reduction of CO2 to Ethane through Stabilization of an Ethoxy Intermediate, Angew. Chem. Int. Ed., 2020, 59, 19649-19653.
[6] Tang C., Jiao Y., Liu J.N., Xie Z.H., Chen X., Zhang Q., Qiao S.Z., Coordination Tunes Selectivity: Two-Electron Oxygen Reduction on High-loading Molybdenum Single-Atom Catalysts, Angew. Chem. Int. Ed., 2020, 59, 9171-9176.
[7] Duan J.J., Chen S., Ledon C.O., Jaroniec M., Qiao S.Z., Phosphorus Vacancies Boost Electrocatalytic Hydrogen Evolution by Two Orders of Magnitude, Angew. Chem. Int. Ed., 2020, 59, 8181-8186.
[8] Yang Y.Y., Zhang L.F., Hu Z.P., Zheng Y., Tang C., Chen P., Wang R.G., Qiu K.W., Mao J., Ling T., Qiao S.Z., The Crucial Role of Charge Accumulation and Spin Polarization in Activating Carbon-based Catalysts for Electrocatalytc Nitrogen Reduction, Angew. Chem. Int. Ed., 2020, 59, 4525-4531.
[9] Jin H.Y., Gu Q.F., Chen B., Tang C., Zheng Y., Zhang H., Jaroniec M., Qiao S.Z., Molten Salt-Directed Catalytic Synthesis of 2D Layered Transition Metal Nitrides for Efficient Hydrogen Evolution, Chem, 2020, 6(9), 2382-2394.
[10] Tang C., Qiao S.Z., How to Explore Ambient Electrocatalytic Nitrogen Reduction Reliably and Insightfully, Chem. Soc. Rev., 2019, 48, 3166-3180.
[11] Wang X.S., Xu C.C., Jaroniec M., Zheng Y., Qiao S.Z., Anomalous Hydrogen Evolution Behavior in High-pH Environment Induced by Locally Generated Hydronium Ions, Nat. Commun., 2019, 10, 4876.
[12] Liu X., Jiao Y., Zheng Y., Jaroniec M., Qiao S.Z., Building up a Picture of the Electrocatalytic Nitrogen Reduction Activities of Transition Metal Single Atom Catalysts, J. Am. Chem. Soc., 2019, 141, 9664-9672.
[13] Zheng Y., Vasileff A., Zhou X.L., Jiao Y., Jaroniec M., Qiao S.Z., Understanding the Roadmap of Electrochemical Reduction of CO2 to Multi-Carbon Oxygenates and Hydrocarbons, J. Am. Chem. Soc., 2019, 141, 7646-7659.
[14] Zhao Y.Q., Ling T., Chen S.M., Jin B., Vasileff A., Jiao Y., Song L., Luo J., Qiao S.Z., Non-metal Single Iodine Atom Electrocatalysts for the Hydrogen Evolution Reaction, Angew. Chem. Int. Ed., 2019, 58, 12252-12257.
[15] You B., Zhang Y.D., Jiao Y., Davey K., Qiao S.Z., Negative Charging of Transition-Metal Phosphides via Strong Electronic Coupling for Destabilization of Alkaline Water, Angew. Chem. Int. Ed., 2019, 58, 11796-11800.
[16] Jin H.Y., Li L.Q., Liu X., Tang C., Xu W.J., Chen S.M., Song L., Zheng Y., Qiao S.Z., Nitrogen Vacancy on Two-Dimensional Layered W2N3: A Stable and Efficient Active Site for Nitrogen Reduction Reaction, Adv. Mater., 2019, 31(32), 1902709.
[17] Shan J.Q., Ling T., Zheng Y., Davey K., Qiao S.Z., Transition Metal Doped RuIr Bifunctional Nanocrystals for Over Water Splitting in Acidic Environments, Adv. Mater., 2019, 31(17), 1900510.
[18] Wang X.S., Vasileff A., Jiao Y., Zheng Y., Qiao S.Z., Electronic and Structural Engineering of Carbon-based Metal-free Electrocatalysts for Water Splitting, Adv. Mater., 2019, 31(13), 1803625.
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