Tailoring C─N Containing Compounds into Carbon Nanomaterials with Tunable Morphologies for Electrocatalytic Applications

Abstract: Carbon materials with unique sp2‐hybridization are extensively researched for catalytic applications due to their excellent conductivity and tunable physicochemical properties. However, the development of economic approaches to tailoring carbon materials into desired morphologies remains a challenge. Herein, a convenient “bottom‐up” strategy by pyrolysis of graphitic carbon nitride (g‐C3N4) (or other carbon/nitrogen (C, N)‐enriched compounds) together with selected metal salts and molecules is reported for the… Show more

“…The application of carbon materials in the eld of catalysis has recently garnered attention. [11][12][13][14][15][16][17] However, the uniform charge distribution and inertness of carbon materials weaken their interaction with reactants, limiting their application as catalysts. Surface functionalization, doping with heteroatoms, and defects creation are the most commonly employed strategies for improving the catalytic properties of carbon materials.…”

Nitrogen-doped carbon material NCM-T heterogeneously catalyzed liquid-phase hydrogenation of nitrobenzene to aniline

“…The application of carbon materials in the eld of catalysis has recently garnered attention. [11][12][13][14][15][16][17] However, the uniform charge distribution and inertness of carbon materials weaken their interaction with reactants, limiting their application as catalysts. Surface functionalization, doping with heteroatoms, and defects creation are the most commonly employed strategies for improving the catalytic properties of carbon materials.…”

Nitrogen-doped carbon material NCM-T heterogeneously catalyzed liquid-phase hydrogenation of nitrobenzene to aniline

Atomically dispersed Co-based species containing electron withdrawing groups for electrocatalytic oxygen reduction reactions