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Multi‐Phase Heterostructure of CoNiP/CoxP for Enhanced Hydrogen Evolution Under Alkaline and Seawater Conditions by Promoting H2O Dissociation Journal article
Liu, D., Ai, H., Chen, M., Zhou, P., Li, B., Liu, D., Du, X., Lo, K. H., Ng, K. W., Wang, S., Chen, S., Xing, G., Hu, J., Pan, H.. Multi‐Phase Heterostructure of CoNiP/CoxP for Enhanced Hydrogen Evolution Under Alkaline and Seawater Conditions by Promoting H2O Dissociation[J]. Small, 2021, 17(17), 1/2007557-10/2007557.
Authors:  Liu, D.;  Ai, H.;  Chen, M.;  Zhou, P.;  Li, B.; et al.
Favorite | TC[WOS]:125 TC[Scopus]:124 | Submit date:2022/07/27
Electrocatalysis  Heterostructure  Hydrogen Generation  Interface Engineering  Transition Metal Phosphide  
Multi-Phase Heterostructure of CoNiP/CoxP for Enhanced Hydrogen Evolution Under Alkaline and Seawater Conditions by Promoting H2O Dissociation Journal article
Dong Liu, Haoqiang Ai, Mingpeng Chen, Pengfei Zhou, Bowen Li, Di Liu, Xinyu Du, Kin Ho Lo, Kar-Wei Ng, Shuang-Peng Wang, Shi Chen, Guichuan Xing, Jinsong Hu, Hui Pan. Multi-Phase Heterostructure of CoNiP/CoxP for Enhanced Hydrogen Evolution Under Alkaline and Seawater Conditions by Promoting H2O Dissociation[J]. Small, 2021, 17(17), 2007557.
Authors:  Dong Liu;  Haoqiang Ai;  Mingpeng Chen;  Pengfei Zhou;  Bowen Li; et al.
Favorite | TC[WOS]:125 TC[Scopus]:126  IF:13.0/13.5 | Submit date:2021/09/10
Electrocatalysis  Heterostructure  Hydrogen Generation  Interface Engineering  Transition Metal Phosphide