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Sn-mediated topological transformation of Archimedean polyhedra of Prussian blue analogues boosts the electrocatalytic performance for alkaline hydrogen production.

Yuzhu HuYongqiang FengWeihang FengJunsheng ChenHai WangTianmi LuoChengke YuanLiyun CaoJianfeng HuangXing Lu
Published in: Dalton transactions (Cambridge, England : 2003) (2023)
The exploitation of an extraordinary and low-cost electrocatalyst to solve energy shortage and environmental pollution issues is crucial. Herein, a topological Archimedean polyhedron of CoFe PBA (Prussian blue analogue) was synthesized via a Sn-induced crystal growth regulation strategy. After phosphating treatment of the as-prepared Sn-CoFe PBA, a Sn-doped binary CoP/FeP hybrid was obtained (Sn-CoP/FeP). Benefiting from the rough polyhedral surface and internal porous structure of Sn-CoP/FeP, when served as a highly efficient electrocatalyst, it exhibited outstanding HER performance, i.e. , to drive a current density of 10 mA cm -2 , it required a low overpotential of 62 mV in alkaline medium, along with a long-term cycling stability for 35 h. This work is of great significance for the development of indispensable novel catalysts for hydrogen production, and would shed new light on the topology-related performance of electrocatalysts for energy storage and conversion.
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