4.8 Article

MOF-Derived In2O3/CuO p-n Heterojunction Photoanode Incorporating Graphene Nanoribbons for Solar Hydrogen Generation

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SMALL
卷 19, 期 30, 页码 -

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WILEY-V C H VERLAG GMBH
DOI: 10.1002/smll.202300606

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graphene nanoribbons; hydrogen generation; metal oxides; metal-organic frameworks; photoelectrochemical; p-n heterojunction

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A high-performance p-n heterojunction composite metal oxide photocatalyst was synthesized via a facile method, and its photoelectrochemical water splitting performance was significantly enhanced by the addition of graphene nanoribbons. The optimized PEC device based on this composite showed a four-fold increase in maximum current density compared to the reference device with only In2O3 photoanodes.
Solar-driven photoelectrochemical (PEC) water splitting is a promising approach toward sustainable hydrogen (H-2) generation. However, the design and synthesis of efficient semiconductor photocatalysts via a facile method remains a significant challenge, especially p-n heterojunctions based on composite metal oxides. Herein, a MOF-on-MOF (metal-organic framework) template is employed as the precursor to synthesize In2O3/CuO p-n heterojunction composite. After incorporation of small amounts of graphene nanoribbons (GNRs), the optimized PEC devices exhibited a maximum current density of 1.51 mA cm(-2) (at 1.6 V vs RHE) under one sun illumination (AM 1.5G, 100 mW cm(-2)), which is approximately four times higher than that of the reference device based on only In2O3 photoanodes. The improvement in the performance of these hybrid anodes is attributed to the presence of a p-n heterojunction that enhances the separation efficiency of photogenerated electron-hole pairs and suppresses charge recombination, as well as the presence of GNRs that can increase the conductivity by offering better path for electron transport, thus reducing the charge transfer resistance. The proposed MOF-derived In2O3/CuO p-n heterojunction composite is used to demonstrate a high-performance PEC device for hydrogen generation.

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