Optimizing Electronic Synergy Between Pt Nanoparticle and Co Single Atom to Accelerate the Electrocatalytic Hydrogen Evolution Activity
Author:
Funder
National Natural Science Foundation of China
Publisher
Springer Science and Business Media LLC
Link
https://link.springer.com/content/pdf/10.1007/s10562-024-04802-y.pdf
Reference43 articles.
1. Huang W, He Q, Hu Y, Li Y (2019) Molecular heterostructures of covalent triazine frameworks for enhanced photocatalytic hydrogen production. Angew Chem Int Ed 58:8676–8680
2. Xu J, Zhang C, Liu H, Sun J, Xie R, Qiu Y, Lü F, Liu Y, Zhuo L, Liu X, Luo J (2020) Amorphous MoOx-stabilized single platinum atoms with ultrahigh mass activity for acidic hydrogen evolution. Nano Energy 70:104529
3. Mosallanezhad A, Wei C, Ahmadian Koudakan P, Fang Y, Niu S, Bian Z, Liu B, Huang T, Pan H, Wang G (2022) Interfacial synergies between single-atomic Pt and CoS for enhancing hydrogen evolution reaction catalysis. Appl Catal B 315:121534
4. Zhou Y, Ju L, Yang Y, Wu W (2024) Structure and electrocatalytical properties of electrodeposited M-Ir (M = Co, Ni) bimetallic alloy catalysts with low Ir loading obtained on copper foams for hydrogen evolution reaction. Catal Lett 154:3759–3775
5. Zhao Y, Niu Z, Zhao J, Xue L, Fu X, Long J (2023) Recent advancements in photoelectrochemical water splitting for hydrogen production. Electrochem Energy Rev 6:14
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