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机译:理解高选择性二氧化碳电导的起源,Ni,N掺杂碳催化剂
Stanford Univ Dept Chem Engn SUNCAT Ctr Interface Sci &
Catalysis Stanford CA 94305 USA;
Stanford Univ Dept Chem Engn SUNCAT Ctr Interface Sci &
Catalysis Stanford CA 94305 USA;
Stanford Univ Dept Chem Engn SUNCAT Ctr Interface Sci &
Catalysis Stanford CA 94305 USA;
Stanford Univ Dept Chem Engn SUNCAT Ctr Interface Sci &
Catalysis Stanford CA 94305 USA;
McMaster Univ Dept Chem Engn Hamilton ON Canada;
Stanford Univ Dept Chem Engn SUNCAT Ctr Interface Sci &
Catalysis Stanford CA 94305 USA;
Stanford Univ Dept Mat Sci &
Engn Stanford CA 94305 USA;
SLAC Natl Accelerator Lab Stanford Synchotron Radiat Lightsource Menlo Pk CA 94025 USA;
SLAC Natl Accelerator Lab SUNCAT Ctr Interface Sci &
Catalysis Menlo Pk CA 94025 USA;
SLAC Natl Accelerator Lab SUNCAT Ctr Interface Sci &
Catalysis Menlo Pk CA 94025 USA;
McMaster Univ Dept Chem Engn Hamilton ON Canada;
Stanford Univ Dept Chem Engn SUNCAT Ctr Interface Sci &
Catalysis Stanford CA 94305 USA;
Stanford Univ Dept Chem Engn SUNCAT Ctr Interface Sci &
Catalysis Stanford CA 94305 USA;
CO2 reduction; electrocatalysis; heterogeneous Catalysis; doped carbon; X-ray absorption spectroscopy;
机译:理解高选择性二氧化碳电导的起源,Ni,N掺杂碳催化剂
机译:Ni纳米粒子装饰-MNO2纳米二核苷酸作为CO2电荷的高度选择性和有效的催化剂(Vol 6,PG 19438,2018)
机译:Ni纳米粒子装饰-MNO2纳秒是CO 2电荷的高选择性和有效催化剂
机译:对N掺杂高度多孔活性碳的CO2,CH4和N2的吸附:选择性吸附烟气和天然气升级的方法
机译:平行测试CO2还原催化剂的设备设计
机译:在N掺杂多孔碳上通过表面结合的Ru聚吡啶基卡宾催化剂将CO2电还原转化为乙醇生产
机译:理解高选择性CO 2电导的起源在Ni,N掺杂碳催化剂上CO