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Palladium Phosphide as a Stable and Efficient Electrocatalyst for Overall Water Splitting
Angewandte Chemie International Edition ( IF 16.1 ) Pub Date : 2018-10-12 , DOI: 10.1002/anie.201810102 Fang Luo 1 , Quan Zhang 1 , Xinxin Yu 1 , Shenglin Xiao 1 , Ying Ling 1 , Hao Hu 1 , Long Guo 1 , Zehui Yang 1 , Liang Huang 2 , Weiwei Cai 1 , Hansong Cheng 1
Angewandte Chemie International Edition ( IF 16.1 ) Pub Date : 2018-10-12 , DOI: 10.1002/anie.201810102 Fang Luo 1 , Quan Zhang 1 , Xinxin Yu 1 , Shenglin Xiao 1 , Ying Ling 1 , Hao Hu 1 , Long Guo 1 , Zehui Yang 1 , Liang Huang 2 , Weiwei Cai 1 , Hansong Cheng 1
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A palladium phosphide electrocatalyst supported on carbon black (PdP2@CB) shows efficient water splitting in both alkaline and neutral electrolytes. Significantly lower overpotentials are required for PdP2@CB (27.5 mV in 0.5 m H2SO4; 35.4 mV in 1 m KOH; 84.6 mV in 1 m PBS) to achieve a HER electrocatalytic current density of 10 mA cm−2 compared to commercial Pt/CB (30.1 mV in 0.5 m H2SO4; 46.6 mV in 1 m KOH; 122.7 mV in 1 m PBS). Moreover, no loss in HER activity is detectable after 5000 potential sweeps. Only 270 mV and 277 mV overpotentials are required to reach a current density of 10 mA cm−2 for PdP2@CB to catalyze OER in 1 m KOH and 1 m PBS electrolytes, which is better OER activity than the benchmark IrO2 electrocatalyst (301 mV and 313 mV to drive a current density of 10 mA cm−2). 1.59 V and 1.72 V are needed for PdP2@CB to achieve stable water splitting catalytic current density of 10 mA cm−2 in 1 m PBS and 50 mA cm−2 in 1 m KOH for 10 h, respectively.
中文翻译:
磷钯作为稳定有效的整体水分解电催化剂
炭黑(PdP 2 @CB)上负载的磷化钯电催化剂在碱性和中性电解液中均表现出有效的水分解作用。显著下的超电势所需的PDP 2 @CB(27.5毫伏0.5 米ħ 2 SO 4 ; 35.4毫伏1 米KOH; 84.6毫伏1 米PBS)来实现的10毫安厘米HER电电流密度-2相比商业的Pt / CB(30.1毫伏0.5 米ħ 2 SO 4 ; 46.6毫伏1 米KOH; 122.7毫伏1 米PBS)。此外,在进行5000次潜在扫描后,没有发现HER活性下降。PdP 2 @CB的电流密度仅需270 mV和277 mV的超电势即可达到10 mA cm -2的电流密度,以在1 m KOH和1 m PBS电解质中催化OER ,这比基准IrO 2电催化剂具有更好的OER活性( 301 mV和313 mV,以驱动10 mA cm -2的电流密度。PdP 2 @CB分别需要1.59 V和1.72 V,才能在1 m PBS中达到10 mA cm -2的稳定水分解催化电流密度,并在1 m KOH中达到50 mA cm -2的稳定水分解催化电流密度10 h。
更新日期:2018-10-12
中文翻译:
磷钯作为稳定有效的整体水分解电催化剂
炭黑(PdP 2 @CB)上负载的磷化钯电催化剂在碱性和中性电解液中均表现出有效的水分解作用。显著下的超电势所需的PDP 2 @CB(27.5毫伏0.5 米ħ 2 SO 4 ; 35.4毫伏1 米KOH; 84.6毫伏1 米PBS)来实现的10毫安厘米HER电电流密度-2相比商业的Pt / CB(30.1毫伏0.5 米ħ 2 SO 4 ; 46.6毫伏1 米KOH; 122.7毫伏1 米PBS)。此外,在进行5000次潜在扫描后,没有发现HER活性下降。PdP 2 @CB的电流密度仅需270 mV和277 mV的超电势即可达到10 mA cm -2的电流密度,以在1 m KOH和1 m PBS电解质中催化OER ,这比基准IrO 2电催化剂具有更好的OER活性( 301 mV和313 mV,以驱动10 mA cm -2的电流密度。PdP 2 @CB分别需要1.59 V和1.72 V,才能在1 m PBS中达到10 mA cm -2的稳定水分解催化电流密度,并在1 m KOH中达到50 mA cm -2的稳定水分解催化电流密度10 h。
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