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- Title
Value‐Added Cascade Synthesis Mediated by Paired‐Electrolysis Using an Ultrathin Microenvironment‐Inbuilt Metalized Covalent Organic Framework Heterojunction.
- Authors
Li, Qing; Ma, Dong‐Dong; Wei, Wen‐Bo; Han, Shu‐Guo; Zheng, Lirong; Zhu, Qi‐Long
- Abstract
Energy‐saving and value‐added management in advanced catalysis is highly desirable but is challenged by the limitations of multifunctional catalysts and catalytic modules. Herein, an azo‐linked phthalocyanine‐porphyrin covalent organic framework (COF) with the ultrathin layered nanostructure grown on carbon nanotubes (NiPc‐azo‐H2Pp@CNTs) has been designed and synthesized, which can serve as a highly active and stable bifunctional heterojunction electrocatalyst for selective paired‐electrosynthesis through coupling anodic iodide oxidation reaction and cathodic CO2 conversion. Particularly, the inbuilt local microenvironment conferred by the dihydroporphyrin moieties in COF can act as a proton reservoir to promote the proton relay at the heterojunction interface during the electrocatalytic process. Moreover, through the cascade construction of dual electrocatalytic/organocatalytic modules, the cathode‐generated CO can be further converted to dimethyl carbonate with a yield of 6.21 mmol L−1 h−1, while the anode‐produced iodine can be derived into iodoform on the hundred‐milligram scale. It is worth noting that the value‐added cascade synthesis mediated by paired‐electrolysis using the distinctive and high‐powered electrocatalysts will help advance the sustainable development of industrial intelligent manufacturing.
- Subjects
ELECTROSYNTHESIS; HETEROJUNCTIONS; CARBON nanotubes; SUSTAINABLE development; INDUSTRIALIZATION; ELECTROCATALYSTS
- Publication
Advanced Energy Materials, 2024, Vol 14, Issue 27, p1
- ISSN
1614-6832
- Publication type
Article
- DOI
10.1002/aenm.202401314