AI Article Synopsis
- The research focuses on improving hydrogen evolution reaction (HER) electrocatalysts for hydrogen-powered clean technologies, addressing existing challenges in efficiency and stability.
- A novel approach combining ligand modulation with cobalt (Co) doping enhances the catalytic activity and durability of the 1T-MoS catalyst by optimizing its structure and interactions with hydrogen.
- Experimental results show that the Co-1T-MoS -bpe catalyst significantly outperforms the traditional Pt/C catalyst in an anion-exchange membrane water electrolyzer, demonstrating its potential in practical applications for sustainable hydrogen production.
Article Abstract
Highly efficient hydrogen evolution reaction (HER) electrocatalyst will determine the mass distributions of hydrogen-powered clean technologies, while still faces grand challenges. In this work, a synergistic ligand modulation plus Co doping strategy is applied to 1T-MoS catalyst via CoMo-metal-organic frameworks precursors, boosting the HER catalytic activity and durability of 1T-MoS . Confirmed by Cs corrected transmission electron microscope and X-ray absorption spectroscopy, the polydentate 1,2-bis(4-pyridyl)ethane ligand can stably link with two-dimensional 1T-MoS layers through cobalt sites to expand interlayer spacing of MoS (Co-1T-MoS -bpe), which promotes active site exposure, accelerates water dissociation, and optimizes the adsorption and desorption of H in alkaline HER processes. Theoretical calculations indicate the promotions in the electronic structure of 1T-MoS originate in the formation of three-dimensional metal-organic constructs by linking π-conjugated ligand, which weakens the hybridization between Mo-3d and S-2p orbitals, and in turn makes S-2p orbital more suitable for hybridization with H-1s orbital. Therefore, Co-1T-MoS -bpe exhibits excellent stability and exceedingly low overpotential for alkaline HER (118 mV at 10 mA cm ). In addition, integrated into an anion-exchange membrane water electrolyzer, Co-1T-MoS -bpe is much superior to the Pt/C catalyst at the large current densities. This study provides a feasible ligand modulation strategy for designs of two-dimensional catalysts.
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| http://dx.doi.org/10.1002/anie.202313845 | DOI Listing |
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