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Dispersed Bi2S3 site in a porphyrin-based metal–organic framework for photocatalytic nitrogen fixation

Author

Listed:
  • Chen, Chunchao
  • Ji, Rui
  • Xia, Xiaoyong
  • Jin, Liujun
  • Deng, Kaiyuan
  • Xu, Qingfeng
  • Lu, Jianmei

Abstract

The development of suitable alternatives to the energy-intensive and seriously polluting Haber–Bosch process for ammonia production is crucial. Photocatalytic nitrogen fixation has attracted extensive research attention as a pollution-free, low-cost, and sustainable ammonia production process. However, most reported photocatalysts so far have relatively low conversion rates for N2 reduction. Herein, we employed a strategy based on bismuth precoordination and in-situ sulfurization strategy to grow highly dispersed bismuth sulfide (Bi2S3) on a porous coordination network (PCN) metal–organic framework. The as-fabricated photocatalyst (Bi2S3@PCN-2) with high-density heterojunctions was used for the photocatalytic nitrogen fixation for ammonia production and degradation of bisphenol A, achieving an ammonia production rate of 3880 μg h−1 g−1 and a 96.4% degradation efficiency for bisphenol A within 30 min in the absence of a sacrificial agent. The abundant porphyrin rings and highly dispersed Bi2S3 broadened the visible-light absorption range of the photocatalyst, leading to numerous photogenerated charge carriers. Additionally, the high-density heterojunctions facilitated the separation of photogenerated electron–hole pairs, resulting in excellent photocatalytic performance. This work provides a new approach for the design and preparation of bifunctional photocatalysts.

Suggested Citation

  • Chen, Chunchao & Ji, Rui & Xia, Xiaoyong & Jin, Liujun & Deng, Kaiyuan & Xu, Qingfeng & Lu, Jianmei, 2024. "Dispersed Bi2S3 site in a porphyrin-based metal–organic framework for photocatalytic nitrogen fixation," Applied Energy, Elsevier, vol. 357(C).
    • Handle: RePEc:eee:appene:v:357:y:2024:i:c:s030626192301872x
    DOI: 10.1016/j.apenergy.2023.122508
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    1. Jianfang Li & Zhaoyang Li & Xiangmei Liu & Changyi Li & Yufeng Zheng & Kelvin Wai Kwok Yeung & Zhenduo Cui & Yanqin Liang & Shengli Zhu & Wenbin Hu & Yajun Qi & Tianjin Zhang & Xianbao Wang & Shuilin , 2021. "Interfacial engineering of Bi2S3/Ti3C2Tx MXene based on work function for rapid photo-excited bacteria-killing," Nature Communications, Nature, vol. 12(1), pages 1-10, December.
    2. Tian-Nan Ye & Sang-Won Park & Yangfan Lu & Jiang Li & Masato Sasase & Masaaki Kitano & Tomofumi Tada & Hideo Hosono, 2020. "Vacancy-enabled N2 activation for ammonia synthesis on an Ni-loaded catalyst," Nature, Nature, vol. 583(7816), pages 391-395, July.
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