Carbonized Wood Decorated with Ternary Heterogeneous MoS2–MoP–Mo2C Nanoparticles for pH-Universal Hydrogen Evolution DOI
Qiuyu Du,

Yaoxing Wang,

Xueqin Fan

et al.

ACS Applied Materials & Interfaces, Journal Year: 2025, Volume and Issue: 17(9), P. 14025 - 14035

Published: Feb. 20, 2025

The assembly of diverse active materials significantly enhances the efficiency electrocatalytic hydrogen evolution reaction (HER). Herein, we prepare a three-phase composite structure electrocatalyst on carbonized wood, in which molybdenum carbide and phosphide are attached to sulfide nanosheets (MoS2-MoP-Mo2C@CW) through hydrothermal method combination with high-temperature calcination for pH-universal HER. MoS2 possesses abundant unsaturated coordination edge sites, thus facilitating adsorption desorption intermediate (H*). synergistic effect between MoS2, MoP featuring favorable electronic conductivity, Mo2C holding strong H* catalytic activity Moreover, wood hierarchical porous aligned microchannels accelerates mass transport during As result, molybdenum-based self-supported electrode exhibits outstanding HER performance low overpotentials 46, 84, 65 mV achieve current density 10 mA cm-2 corresponding Tafel slopes 57, 111 mV, 63 dec-1 alkaline, neutral, acidic environments, respectively. MoS2-MoP-Mo2C@CW also shows long-term durability 200 h over broad pH range at cm-2. This work provides an effective strategy development multiphase wood-based electrocatalysts

Language: Английский

Carbonized Wood Decorated with Ternary Heterogeneous MoS2–MoP–Mo2C Nanoparticles for pH-Universal Hydrogen Evolution DOI
Qiuyu Du,

Yaoxing Wang,

Xueqin Fan

et al.

ACS Applied Materials & Interfaces, Journal Year: 2025, Volume and Issue: 17(9), P. 14025 - 14035

Published: Feb. 20, 2025

The assembly of diverse active materials significantly enhances the efficiency electrocatalytic hydrogen evolution reaction (HER). Herein, we prepare a three-phase composite structure electrocatalyst on carbonized wood, in which molybdenum carbide and phosphide are attached to sulfide nanosheets (MoS2-MoP-Mo2C@CW) through hydrothermal method combination with high-temperature calcination for pH-universal HER. MoS2 possesses abundant unsaturated coordination edge sites, thus facilitating adsorption desorption intermediate (H*). synergistic effect between MoS2, MoP featuring favorable electronic conductivity, Mo2C holding strong H* catalytic activity Moreover, wood hierarchical porous aligned microchannels accelerates mass transport during As result, molybdenum-based self-supported electrode exhibits outstanding HER performance low overpotentials 46, 84, 65 mV achieve current density 10 mA cm-2 corresponding Tafel slopes 57, 111 mV, 63 dec-1 alkaline, neutral, acidic environments, respectively. MoS2-MoP-Mo2C@CW also shows long-term durability 200 h over broad pH range at cm-2. This work provides an effective strategy development multiphase wood-based electrocatalysts

Language: Английский

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