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机译:相邻石墨层上原子金属的电荷极化,用于增强氢进化反应
Griffith Univ Sch Environm &
Sci Nathan Campus Nathan Qld 4111 Australia;
Griffith Univ Sch Environm &
Sci Nathan Campus Nathan Qld 4111 Australia;
Qingdao Univ Collaborat Innovat Ctr Marine Biomass Fibers Mat Coll Chem &
Environm Engn Qingdao Shandong Peoples R China;
Univ Queensland Sch Chem Engn Brisbane Qld 4072 Australia;
Griffith Univ Sch Environm &
Sci Nathan Campus Nathan Qld 4111 Australia;
Griffith Univ Sch Environm &
Sci Nathan Campus Nathan Qld 4111 Australia;
Griffith Univ Sch Environm &
Sci Nathan Campus Nathan Qld 4111 Australia;
Qingdao Univ Collaborat Innovat Ctr Marine Biomass Fibers Mat Coll Chem &
Environm Engn Qingdao Shandong Peoples R China;
Jilin Univ Coll Chem State Key Lab Inorgan Synth &
Preparat Chem Changchun 130012 Jilin Peoples R China;
Jilin Univ Coll Chem State Key Lab Inorgan Synth &
Preparat Chem Changchun 130012 Jilin Peoples R China;
Griffith Univ Sch Environm &
Sci Nathan Campus Nathan Qld 4111 Australia;
atomic metals; charge polarization; electrocatalysis; hydrogen evolution reaction; multi-layered carbon;
机译:相邻石墨层上原子金属的电荷极化,用于增强氢进化反应
机译:p掺杂的石墨烯/石墨碳氮化物混合电催化剂:揭示电荷转移机制以增强氢释放反应性能
机译:原子分层硫化钛硫化物量子点作为增强氢进化反应的电催化剂
机译:多层镍铜金属氢氧化物涂层作为氢进化反应的阴极材料
机译:在等离子体增强原子层沉积制备的金属氧化物/氧化物界面处的光诱导电荷转移。
机译:原子层沉积的Pt-Ru双金属二聚体并确定其用于氢释放反应的活性位点
机译:Innenrücktitelbild:相邻石墨层上的原子金属的电荷极化,用于增强氢气进化反应(Angew.28 / 2019)