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Covalent organic frameworks (COFs) are promising electrocatalyst platforms owing to their designability, porosity, and stability. Recently, COFs with various chemical structures are developed as efficient electrochemical CO2 reduction catalysts. However, controlling the morphology of COF catalysts remains a challenge, which can limit their electrocatalytic performance. Especially, while porphyrin...
Herein, novel carbons that, owing to a high density of micropores (up to 79%) and N‐content (up to 14.9%), offering exciting potential for post‐combustion CO2 capture are reported. Given that little is known about how starting materials impact the structure and performance of carbons, three different microporous materials are pyrolyzed. These include a Co‐(metal‐organic framework) (MOF), a Co‐MOF‐polymer...
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