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Spontaneous exciton dissociation in organic photocatalyst under ambient conditions for highly efficient synthesis of hydrogen peroxide

Huijie Yan, Minhui Shen, Yong Shen, Xudong Wang, Wei Lin, Jinhui Pan, Jian He, Yu‐Xin Ye, Xin Yang, Fang Zhu, Jianqiao Xu, Jianguo He, Gangfeng Ouyang

2022Proceedings of the National Academy of Sciences95 citationsDOIOpen Access PDF

Abstract

Significance Hydrogen peroxide is a highly competitive ready-to-use product for solar energy transformation. Nevertheless, the contemporary photosynthetic systems are not efficient enough, due to severe charge recombination caused by high activation energy and binding energy of the exciton. Herein, we achieve spontaneous exciton dissociation at room temperature. Moreover, the photosynthesis of H 2 O 2 reaches between 9,366 and 12,324 µmol·g −1 from 9 AM to 4 PM in ambient conditions, that is, sunlight irradiation, real water including fresh water and seawater, room temperature, and open air. The ultrahigh photocatalytic efficiency in ambient conditions allows the solar-to-chemical conversion in a real cost-effective and sustainable way, which represents an important step toward real applications.

Topics & Concepts

Dissociation (chemistry)Hydrogen peroxidePhotocatalysisExcitonPhotochemistrySeawaterPhotosynthesisChemical energyChemistrySolar energyMaterials scienceChemical engineeringCatalysisPhysicsPhysical chemistryOrganic chemistryOceanographyEngineeringGeologyEcologyBiochemistryQuantum mechanicsBiologyAdvanced Photocatalysis TechniquesPerovskite Materials and ApplicationsQuantum Dots Synthesis And Properties
Spontaneous exciton dissociation in organic photocatalyst under ambient conditions for highly efficient synthesis of hydrogen peroxide | Litcius