Developing highly efficient,easy-to-make and cost-effective bifunc-tional electrocatalysts for water splitting with lower cell voltages is crucial to produc-ing massive hydrogen fuel.In response,the coupled hierarchical Ni/Fe-based MOF nanosheet arrays with embedded metal sulfide nanoclusters onto nickel foam skele-ton(denoted as Fe-Ni3S2@NiFe-MOF/NF)are fabricated,in which the Fe-Ni3S2 clus-ters could effectively restrain the aggregation of the layer metal-organic frameworks(MOF)nanosheets and adjust the local electronic structures of MOFs nanosheets.Benefiting from the rapid charge transfer and the exposure of abundant active sites,the well-designed Fe-Ni3S2@NiFe-MOF/NF displays excellent oxygen evolution re-action(OER)and hydrogen evolution reaction(HER)performance.More importantly,when equipped in the alkaline water electrolyzer,the Fe-Ni3S2@NiFe-MOF/NF ena-bles the system with a mere 1.6 V for achieving the current density of 10 mA cm-2.This work offers a paradigm for designing efficient bifunctional HER/OER electrocatalysts based on the hybrid materials of nanostructured metal sulfide and MOF.

Xianbiao Hou;Tianyuan Jiang;Xiujuan Xu;Xingkun Wang;Jian Zhou;Huimin Xie;Zhicheng Liu;Lei Chu;Minghua Huang

School of Materials Science and Engineering,Ocean University of China,Qingdao 266100,China

结构化学

[1]Xianbiao Hou;Tianyuan Jiang;Xiujuan Xu;Xingkun Wang;Jian Zhou;Huimin Xie;Zhicheng Liu;Lei Chu;Minghua Huang-.Coupling of NiFe-Based Metal-Organic Framework Nanosheet Arrays with Embedded Fe-Ni3S2 Clusters as Efficient Bifunctional Electrocatalysts for Overall Water Splitting)[J].结构化学,2022(07):74-80

Coupling,NiFe,Based,Metal,Organic,Framework,Nanosheet,Arrays,Embedded,Ni3S2,Clusters,Efficient,Bifunctional,Electrocatalysts,Overall,Water,Splitting,Developing,highly,efficient,easy,make,cost,electrocatalysts,water,splitting,lower,voltages,crucial,produc,massive,hydrogen,fuel,In,response,coupled,hierarchical,arrays,embedded,metal,sulfide,nanoclusters,onto,nickel,foam,skele,ton,denoted,are,fabricated,which,could,effectively,restrain,aggregation,layer,organic,frameworks,nanosheets,adjust,local,electronic,structures,MOFs,Benefiting,from,rapid,charge,transfer,exposure,abundant,active,sites,well,designed,displays,excellent,oxygen,evolution,OER,reaction,HER,performance,More,importantly,when,equipped,alkaline,electrolyzer,ena,bles,system,mere,achieving,current,density,mA,This,offers,paradigm,designing,bifunctional,hybrid,materials,nanostructured

0.635402