机译:超过17%的效率独立太阳能水分裂,由Perovskite-Silicon Tandem吸收器启用
The Australian National University|The Australian National University;
The Australian National University;
The Australian National University;
The Australian National University;
King Abdullah University of Science &
Technology (KAUST);
The Australian National University;
The Australian National University;
The Australian National University;
The Australian National University;
King Abdullah University of Science &
Technology (KAUST);
The Australian National University|The Australian National University;
The Australian National University|The Australian National University;
The Australian National University;
hydrogen generation; perovskite solar cells; photoelectrochemical cell; Si photoelectrodes; stand‐alone water splitting;
机译:使用溶液加工的Ni基电催化剂和Perovskite / Si Tandem太阳能电池(Perovskite / Si串联太阳能电池)的水分裂超过17%的太阳能转换效率
机译:坚固的钴催化,双掺杂BiVO4光电阳极和钙钛矿太阳能电池串联的无线太阳能水分解装置:双吸收器人工叶片
机译:基于串联互连的薄膜吸收器的单片太阳能水分离装置,太阳能到氢的效率超过10%
机译:通过双吸收器串联细胞进行高效的太阳能水分
机译:高效四端子钙钛矿-硅鞣质的开发
机译:通过光伏电解分解太阳能将太阳能转化为氢的效率超过30%
机译:使用溶液加工的Ni基电催化剂和Perovskite / Si Tandem太阳能电池超出17%的太阳能转换效率超过17%的太阳能转换效率