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Article Abstract
Tungsten carbide (WC)-based nanomaterials are considered as promising and efficient electrocatalysts for the hydrogen evolution reaction (HER) owing to their Pt-like electronic structures. However, the coexistence of multiple crystalline phases of WC, including WC, WC, and WC, poses a challenge in identifying the active phase and optimizing catalytic performance. Herein, we present an effective approach to regulate the crystalline phase of WC-based catalysts by precisely tailoring the type of anions in the cobalt (Co) precursors. Detailed characterizations reveal that inorganic cobalt anions favor the formation of single phase of Co-WC, whereas organic cobalt anions lead to the development of a mixed phase composition of Co-WC and Co-WC (Co-WC). Structural analyses and electrocatalytic measurements, identify Co-WC as the active phase for alkaline HER. Notably, as-prepared pure Co-WC delivers outstanding alkaline HER performance, achieving an ultralow overpotential of 100 mV at a current density of 10 mA cm along with a favorable Tafel slope of 80 mV dec, outperforming both the Co-WC counterpart and most reported WC-based HER catalysts. Our findings provide a straightforward strategy for regulating the crystalline phases of transition metal-carbides and the development of advanced electrocatalysts for HER and related reactions.
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| http://dx.doi.org/10.1016/j.jcis.2025.138840 | DOI Listing |
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