Journal
DALTON TRANSACTIONS
Volume 50, Issue 1, Pages 72-75Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/d0dt03509b
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Funding
- National Natural Science Foundation of China [21701107, 51672165]
- Natural Science Foundation of Shaanxi Province [2019JQ-018]
- Xi'an Key Laboratory of Green Manufacture of Ceramic Materials Foundation [2019220214SYS017CG039]
- Key Program for International S&T Cooperation Projects of Shaanxi Province [2020KW-038, 2020GHJD-04]
- Science and Technology Resource Sharing Platform of Shaanxi Province [2020PT-022]
- Science and Technology Program of Xi'an, China [2020KJRC0009]
- Shaanxi Provincial Education Department [20JY001]
- Doctoral Scientific Research Start up Foundation of Shaanxi University of Science and Technology [2016QNBT-07]
- State Key Laboratory of Inorganic Synthesis and Preparative Chemistry [2021-14]
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The study demonstrates the in-situ generation of NiCoV-LTH to enhance HER performance on nickel foam. The introduction of Co induces the formation of porous nanosheets and exposes active sites, accelerating the HER process.
We report the in situ generation of NiCoV-LTH on nickel foam for the HER. Interestingly, the introduction of Co into NiV-LDH can induce the formation of porous nanosheets to expose a large number of active sites and change the electron density around Ni and V to promote the absorption of hydrogen species and thus accelerate the HER kinetics.
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