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W4280491361 endingPage "8338" @default.
W4280491361 startingPage "8328" @default.
W4280491361 abstract "Finding reservoir-rich and efficient bifunctional electrocatalysts for water splitting is key to further sustainable energy development. Transition metal phosphides (TMPs) are extensively exploited as effective electrocatalysts, but the construction of strong coupling interfaces to improve catalytic performance by simple methods is still a bottleneck. Here, we designed and prepared a novel heterostructure electrocatalyst composed of cobalt-molybdenum (CoMo) alloy particles integrated with CoMoP nanosheets via the method of template-assisted conversion, followed by electrodeposition. Thanks to the strong interfacial coupling and synergistic effect between CoMo alloy particles and CoMoP nanosheets, the prepared CoMo/CoMoP/NF shows outstanding activity with overpotentials of only 29 mV for the hydrogen evolution reaction (HER) and 246 mV for the oxygen evolution reaction (OER) in 1 M KOH at a current density of 10 mA cm-2. Furthermore, the assembled CoMo/CoMoP || CoMo/CoMoP electrode can attain 10 mA cm-2 with a low battery voltage of 1.54 V. This study offers a valuable reference to the construction of bimetallic alloy/bimetallic phosphide heterostructure electrocatalysts, which applies to the large-scale application of electrocatalytic energy conversion technology." @default.
W4280491361 created "2022-05-22" @default.
W4280491361 creator A5018073672 @default.
W4280491361 creator A5032058722 @default.
W4280491361 creator A5041910634 @default.
W4280491361 creator A5048533850 @default.
W4280491361 creator A5081439505 @default.
W4280491361 creator A5091071159 @default.
W4280491361 date "2022-05-17" @default.
W4280491361 modified "2023-10-14" @default.
W4280491361 title "Synergistically Coupled CoMo/CoMoP Electrocatalyst for Highly Efficient and Stable Overall Water Splitting" @default.
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W4280491361 cites W2165143832 @default.
W4280491361 cites W2252656032 @default.
W4280491361 cites W2272232474 @default.
W4280491361 cites W2283941186 @default.
W4280491361 cites W2294550789 @default.
W4280491361 cites W2327884926 @default.
W4280491361 cites W2425519069 @default.
W4280491361 cites W2521504926 @default.
W4280491361 cites W2541023699 @default.
W4280491361 cites W2564922023 @default.
W4280491361 cites W2589839690 @default.
W4280491361 cites W2613121365 @default.
W4280491361 cites W2613728987 @default.
W4280491361 cites W2736363959 @default.
W4280491361 cites W2770694413 @default.
W4280491361 cites W2774935570 @default.
W4280491361 cites W2782909164 @default.
W4280491361 cites W2783522744 @default.
W4280491361 cites W2790407078 @default.
W4280491361 cites W2793942641 @default.
W4280491361 cites W2795741373 @default.
W4280491361 cites W2806334488 @default.
W4280491361 cites W2810479593 @default.
W4280491361 cites W2882995192 @default.
W4280491361 cites W2883885771 @default.
W4280491361 cites W2884708690 @default.
W4280491361 cites W2888668308 @default.
W4280491361 cites W2894207195 @default.
W4280491361 cites W2896149758 @default.
W4280491361 cites W2898054340 @default.
W4280491361 cites W2900244218 @default.
W4280491361 cites W2907450466 @default.
W4280491361 cites W2909876663 @default.
W4280491361 cites W2910833765 @default.
W4280491361 cites W2942352119 @default.
W4280491361 cites W2945271733 @default.
W4280491361 cites W2947234316 @default.
W4280491361 cites W2947397661 @default.
W4280491361 cites W2963854143 @default.
W4280491361 cites W2973087780 @default.
W4280491361 cites W2988190427 @default.
W4280491361 cites W2989722967 @default.
W4280491361 cites W2994822493 @default.
W4280491361 cites W2996336114 @default.
W4280491361 cites W3003693006 @default.
W4280491361 cites W3010960485 @default.
W4280491361 cites W3014061886 @default.
W4280491361 cites W3046880308 @default.
W4280491361 cites W3048874586 @default.
W4280491361 cites W3049279486 @default.
W4280491361 cites W3083357488 @default.
W4280491361 cites W3092859443 @default.
W4280491361 cites W3093885556 @default.
W4280491361 cites W3099476142 @default.
W4280491361 cites W3110621696 @default.
W4280491361 cites W3111334675 @default.
W4280491361 cites W3116450839 @default.
W4280491361 cites W3118462958 @default.
W4280491361 cites W3119155352 @default.
W4280491361 cites W3122239491 @default.
W4280491361 cites W3124872094 @default.
W4280491361 cites W3130417378 @default.
W4280491361 cites W3130584222 @default.
W4280491361 cites W3138701895 @default.
W4280491361 cites W3154402001 @default.
W4280491361 cites W3158945043 @default.
W4280491361 cites W3159296367 @default.
W4280491361 cites W3179732735 @default.
W4280491361 cites W3192950322 @default.
W4280491361 cites W3195626126 @default.
W4280491361 cites W4206958349 @default.
W4280491361 cites W4256207320 @default.
W4280491361 doi "https://doi.org/10.1021/acs.inorgchem.2c00923" @default.
W4280491361 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/35580901" @default.
W4280491361 hasPublicationYear "2022" @default.
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