...
机译:内盖:CO2与合成气的电化学转化,可控制的CO / H2比率,通过CO和Ni单原子催化剂(Angew.Chem.Int.Sug.8/2020)
National Synchrotron Radiation LaboratoryUniversity of Science and Technology of ChinaHefei Anhui 230029 China;
School of Materials Science and EngineeringNanyang Technological UniversitySingapore 639798 Singapore;
Department of Chemical EngineeringColumbia UniversityNew York NY 10027 USA;
Department of Chemical EngineeringColumbia UniversityNew York NY 10027 USA;
Department of Chemical EngineeringColumbia UniversityNew York NY 10027 USA;
Center for Functional NanomaterialsBrookhaven National LaboratoryUpton NY 11973 USA;
Department of PhysicsFlorida A&
M UniversityTallahassee FL 32307 USA;
National Synchrotron Radiation LaboratoryUniversity of Science and Technology of ChinaHefei Anhui 230029 China;
Department of Chemical EngineeringColumbia UniversityNew York NY 10027 USA;
CO2 electroreduction; density functional theory; high activity; selectivity control; syngas production;
机译:内盖:CO2与合成气的电化学转化,可控制的CO / H2比率,通过CO和Ni单原子催化剂(Angew.Chem.Int.Sug.8/2020)
机译:内页:单原子敏感性的MoS2纳米催化剂成像(Angew。Chem。Int。Ed。15/2010)
机译:CO2与合成气的电化学转化,可控制CO / H2比在CO和Ni单原子催化剂中的可控CO / H2比率
机译:用于Co2 / H2O和CO2 / CH4系统的光催化剂转化为合成气的新型催化剂
机译:用于电化学二氧化碳还原反应的单原子位点催化剂的原子水平调节
机译:内部盖子:CO 2与合成气的电化学转化,可控制CO / H 2比率,CO和Ni单原子催化剂(Angew.Chem.Int.Sted。8/2020)