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FeSe 2 and Its Composites for Pollutants Removal: Synthesis, Mechanisms, and Application Potential.

Wenbo XuDanlian HuangSai LiGuangfu WangWei ZhouLi DuHai Huang
Published in: Small (Weinheim an der Bergstrasse, Germany) (2024)
In recent years, the research of FeSe 2 and its composites in environmental remediation has been gradually carried out. And the FeSe 2 materials show great catalytic performance in photocatalysis, electrocatalysis, and Fenton-like reactions for pollutants removal. Therefore, the studies and applications of FeSe 2 materials are reviewed in this work, including the common synthesis methods, the role of Fe and Se species as well as the catalyst structure, and the potential for practical environmental applications. Hereinto, it is worth noting in particular that the lower-valent Se (Se 2- ), unsaturated Se (Se - ), and Se vacancies (V Se ) can play different roles in promoting pollutants removal. In addition, the FeSe 2 material also demonstrates high stability, reusability, and adaptability over a wider pH range as well as universality to different pollutants. In view of the overall great properties and performance of FeSe 2 materials compared with other typical Fe-based materials, it deserves and needs further research. And finally, this paper presents some challenges and perspectives in future development, looking forward to providing helpful guidance for the subsequent research of FeSe 2 and its composites for environmental application.
Keyphrases
  • visible light
  • human health
  • reduced graphene oxide
  • heavy metals
  • aqueous solution
  • hydrogen peroxide
  • life cycle
  • ionic liquid
  • nitric oxide
  • carbon dioxide
  • crystal structure