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Photogenerated outer electric field induced electrophoresis of organic nanocrystals for effective solid-solid photocatalysis

Yan Guo, Bowen Zhu, Chuyang Y. Tang (), Qixin Zhou () and Yongfa Zhu ()
Additional contact information
Yan Guo: Tsinghua University
Bowen Zhu: Beijing University of Civil Engineering and Architecture
Chuyang Y. Tang: The University of Hong Kong
Qixin Zhou: Tsinghua University
Yongfa Zhu: Tsinghua University

Nature Communications, 2024, vol. 15, issue 1, 1-10

Abstract: Abstract Rapid mass transfer in solid-solid reactions is crucial for catalysis. Although phoretic nanoparticles offer potential for increased collision efficiency between solids, their implementation is hindered by limited interaction ranges. Here, we present a self-driven long-range electrophoresis of organic nanocrystals facilitated by a rationally designed photogenerated outer electric field (OEF) on their surface. Employing perylene-3,4,9,10-tetracarboxylic dianhydride (PTCDA) molecular nanocrystals as a model, we demonstrate that a directional OEF with an intensity of 13.6-0.4 kV m−1 across a range of 25–200 μm. This OEF-driven targeted electrophoresis of PTCDA nanocrystals onto the microplastic surface enhances the activity for subsequent decomposition of microplastics (196.8 mg h−1) into CO2 by solid-solid catalysis. As supported by operando characterizations and theoretical calculations, the OEF surrounds PTCDA nanocrystals initially, directing from the electron-rich (0 1 1) to the hole-rich $$(11\bar{2})$$ ( 11 2 ¯ ) surface. Upon surface charge modulation, the direction of OEF changes toward the solid substrate. The OEF-driven electrophoretic effect in organic nanocrystals with anisotropic charge enrichment characteristics indicates potential advancements in realizing effective solid-solid photocatalysis.

Date: 2024
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DOI: 10.1038/s41467-024-44700-w

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