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Literature DB >> 30563330

Plasmonic p-n Junction for Infrared Light to Chemical Energy Conversion.

Zichao Lian¹, Masanori Sakamoto², Junie J M Vequizo³, C S Kumara Ranasinghe³, Akira Yamakata³, Takuro Nagai⁴, Koji Kimoto⁴, Yoichi Kobayashi⁵, Naoto Tamai⁶, Toshiharu Teranishi².

Abstract

Infrared (IR) light represents an untapped energy source accounting for almost half of all solar energy. Thus, there is a need to develop systems to convert IR light to fuel and make full use of this plentiful resource. Herein, we report photocatalytic H2 evolution driven by near- to shortwave-IR light (up to 2500 nm) irradiation, based on novel CdS/Cu7S4 heterostructured nanocrystals. The apparent quantum yield reached 3.8% at 1100 nm, which exceeds the highest efficiencies achieved by IR light energy conversion systems reported to date. Spectroscopic results revealed that plasmon-induced hot-electron injection at p-n heterojunctions realizes exceptionally long-lived charge separation (>273 μs), which results in efficient IR light to hydrogen conversion. These results pave the way for the exploration of undeveloped low-energy light for solar fuel generation.

Entities: Chemical

Year: 2019 PMID： 30563330 DOI： 10.1021/jacs.8b11544

Source DB: PubMed Journal: J Am Chem Soc ISSN： 0002-7863 Impact factor: 15.419

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Cited

5 in total

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4. Direct Electron Transfer from Upconversion Graphene Quantum Dots to TiO₂ Enabling Infrared Light-Driven Overall Water Splitting.

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Journal: Research (Wash D C) Date: 2022-04-13

5. Efficient photocatalytic hydrogen evolution on single-crystalline metal selenide particles with suitable cocatalysts.

Authors: Shanshan Chen; Junie Jhon M Vequizo; Takashi Hisatomi; Mamiko Nakabayashi; Lihua Lin; Zheng Wang; Akira Yamakata; Naoya Shibata; Tsuyoshi Takata; Taro Yamada; Kazunari Domen
Journal: Chem Sci Date: 2020-04-01 Impact factor: 9.825