机译:铂三吡啶金属聚合物电极作为氧化氧铂催化剂在氧还原反应和氢进化反应中的成本效益
Future Industries Institute University of South Australia Mawson Lakes Campus Adelaide South Australia 5095 Australia;
Future Industries Institute University of South Australia Mawson Lakes Campus Adelaide South Australia 5095 Australia;
The MacDiarmid Institute School of Chemical and Physical Sciences Victoria University of Wellington Laby 410 Gate 6 Kelburn Parade Kelburn Wellington 6140 New Zealand;
Department of Chemistry and Chemical Engineering Chalmers University of Technology 41296 Gothenburg Sweden;
The MacDiarmid Institute School of Chemical and Physical Sciences Victoria University of Wellington Laby 410 Gate 6 Kelburn Parade Kelburn Wellington 6140 New Zealand;
Future Industries Institute University of South Australia Mawson Lakes Campus Adelaide South Australia 5095 Australia;
Future Industries Institute University of South Australia Mawson Lakes Campus Adelaide South Australia 5095 Australia;
Conducting polymer; Electrocatalyst; Fuel cells; Hydrogen evolution reaction; Low metal loading; Metal complex; Oxygen reduction reaction; Terthiophene;
机译:铂三吡啶金属聚合物电极作为氧化氧铂催化剂在氧还原反应和氢进化反应中的成本效益
机译:自组装的3D层次多孔杂交作为铂类双功能非普通金属催化剂,用于氧还原反应和氢进化反应
机译:铂纳米粒子@氧化石墨烯@镍-铜@镍泡沫泡沫电极的直接电沉积是一种耐用且具有成本效益的催化剂,具有出色的电化学制氢反应性能
机译:铂 - 复合结构和铂纳米粒子对Au(HKL)电极表面进行氧还原反应的电化学-STM分析
机译:使用原位X射线吸收光谱法测定铂和非铂电极上的氧还原量以及铂和铂钴电极上的硫氧化反应机理。
机译:聚合物电解质膜燃料电池中的高性能无铂氧还原反应和氢氧化反应催化剂
机译:单铂原子电催化剂:氧还原反应和氢氧化反应
机译:阴离子和阳离子对铂电极上氧还原和析出反应的影响