Main-chain poly(ionic liquid)-derived nitrogen-doped micro/mesoporous carbons for CO2 capture and selective aerobic oxidation of alcohols
Jiang Gong, Huijuan Lin, Konrad Grygiel, Jiayin Yuan

TL;DR
This study develops nitrogen-doped micro/mesoporous carbons from poly(ionic liquid) precursors, demonstrating their effectiveness in CO2 capture and as metal-free catalysts for selective oxidation of alcohols, advancing environmental and catalytic applications.
Contribution
Introduces a novel method to synthesize nitrogen-doped porous carbons from poly(ionic liquid), enhancing CO2 adsorption and catalytic oxidation without metals.
Findings
High CO2 adsorption capacity of 6.2 mmol/g at 273 K and 1 bar
Excellent reversibility and selectivity in CO2 capture
Effective metal-free catalysis for alcohol oxidation
Abstract
Sustainable development and the recent fast growing global demands for energy and functional chemicals urgently call for effective methods for CO2 remediation and efficient metal-free catalysts for selective oxidation of aromatic alcohol. Herein, a unique main-chain poly(ionic liquid) (PIL) is employed as the precursor to prepare nitrogen doped micro and mesoporous carbons via simultaneous carbonization and activation, which bear high yield, large specific surface area above 1700 m2 per g and rich nitrogen dopant. The porous carbon products deliver a high CO2 adsorption capacity up to 6.2 mmol per g at 273 K and 1 bar with outstanding reversibility and satisfactory selectivity. Besides, they work excellently as metal free carbocatalysts for the selective aerobic oxidation of benzyl alcohol to benzaldehyde with high selectivity. It is believed that this work not only provides a facile…
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