2024
DOI: 10.1002/aenm.202401314
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Value‐Added Cascade Synthesis Mediated by Paired‐Electrolysis Using an Ultrathin Microenvironment‐Inbuilt Metalized Covalent Organic Framework Heterojunction

Qing Li,
Dong‐Dong Ma,
Wen‐Bo Wei
et al.

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 coup… Show more

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Cited by 6 publications
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“…Similarly, Zhu et al 88 constructed a bi-functional heterojunction electrocatalyst with ultrathin layered nanostructures, which was grown on CNTs using a COF of azo-linked phthalocyanine porphyrin (NiPc-azo-H 2 Pp@CNTs), for CO 2 R coupled with iodide oxidation reactions (Fig. 15a).…”
Section: Co2r Using Nickel Phthalocyaninementioning
confidence: 99%
“…Similarly, Zhu et al 88 constructed a bi-functional heterojunction electrocatalyst with ultrathin layered nanostructures, which was grown on CNTs using a COF of azo-linked phthalocyanine porphyrin (NiPc-azo-H 2 Pp@CNTs), for CO 2 R coupled with iodide oxidation reactions (Fig. 15a).…”
Section: Co2r Using Nickel Phthalocyaninementioning
confidence: 99%