Login / Signup

Design Photocatalysts to Boost Carrier Dynamics in Plastics Photoconversion into Fuels.

Jinyu DingDongpo HePeijin DuJiacong WuQinyuan HuQingXia ChenXingchen Jiao
Published in: ACS applied materials & interfaces (2024)
Solar-driven plastics conversion into valuable fuels has attracted broad attention in recent years, which has enormous potential for plastics recycling in the future. However, it usually encounters low conversion efficiency, where one of the reasons is attributed to the poor carrier dynamics in the photocatalytic process. In this Perspective, we critically review the developed strategies, involving defect engineering, doping engineering, heterojunction engineering, and composite construction, for boosted carrier separation efficiency. In addition, we provide an outlook for more potential strategies to engineer catalysts for promoted carrier dynamics. Finally, we also propose prospects for the future research direction of plastics photoconversion into fuels.
Keyphrases
  • current status
  • visible light
  • highly efficient
  • working memory
  • transition metal
  • risk assessment
  • climate change
  • soft tissue