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Interface-Engineered 3D porous MoS2–ReS2 in-plane heterojunction as efficient hydrogen evolution reaction electrocatalysts

JOURNAL OF COLLOID AND INTERFACE SCIENCE [2024]
Lechen Diao, Pingping Wang, Guozhou Feng, Biao Zhang, Zhichao Miao, Li-ping Xu, Jin Zhou
ABSTRACT

Constructing in-plane heterojunctions with high interfacial density using two-dimensional materials represents a promising yet challenging avenue for enhancing the hydrogen evolution reaction (HER) in water electrolysis. In this work, we report that three-dimensional porous MoS 2 –ReS 2 in-plane heterojunctions, fabricated via chemical vapor deposition, exhibit robust electrocatalytic activity for the water splitting reaction. The optimized MoS 2 –ReS 2 in-plane heterojunction achieves superior HER performance across a wide pH range, requiring an overpotential of only 200 mV to reach a current density of 10 mA cm −2 in alkaline seawater . Thus, it outperforms standalone MoS 2 and ReS 2 . Furthermore, the catalyst exhibits remarkable stability, enduring up to 200 h in alkaline seawater. Experimental results coupled with density functional theory calculations confirm that electron redistribution at the MoS 2 –ReS 2 heterointerface is likely driven by disparities in in-plane work functions between the two phases. This leads to charge accumulation at the interface, thereby enhancing the adsorptive activity of S atoms toward H* intermediates and facilitating the dissociation of water molecules at the interface. This discovery offers valuable insights into the electrocatalytic mechanisms at the interface and provides a roadmap for designing high-performance, earth-abundant HER electrocatalysts suitable for practical applications.

MATERIALS

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