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Biomass‐Induced Diphasic Carbon Decoration for Carbon Nitride: Band and Electronic Engineering Targeting Efficient N<sub>2</sub> Photofixation

Zheng Tang, Lijun Xiong, Xiaoyue Zhang, Jinyou Shen, Aiwu Sun, Xiangyang Lin, Yong Yang

2021Small29 citationsDOI

Abstract

Abstract Boosting the replacement of traditional NH 3 production (Haber–Bosch process) with photocatalytic technology is of great importance for energy and environment remediation. Herein, to develop a photocatalyst with efficient charge separation and abundant reactive sites for photocatalytic N 2 fixation, a biomass‐induced diphase‐carbon doping strategy is proposed by adding lotus root starch which can be environmentally produced into the preparation of carbon nitride (CN). The adjustment to the CN framework by planar‐fused carbon optimizes the band alignment of the catalyst, improving its response to sunlight. In particular, the in‐plane‐fused carbon in collaboration with the physically piled carbon initiates unique dual electron transfer pathways from different dimensions. The diphasic carbons can both function as qualified reactive sites according to the experimental explorations and further theoretical calculations, which effectively regulate the electron transfer and energy barrier associated with the N 2 reduction on catalyst. The bio‐carbon‐doped catalyst exhibits drastically enhanced photocatalytic N 2 fixation performance, and the NH 3 yield on the optimized DC‐CN0.1 reaches 167.35 µmol g −1 h −1 , which is fivefold of g‐C 3 N 4 and stands far out from the single‐phase doped systems. These explorations expand the metal‐free skeleton engineering toolbox and provide new guidance for the solar energy utilizations.

Topics & Concepts

Carbon fibersBiomass (ecology)Carbon nitrideMaterials scienceNitrideGraphitic carbon nitrideNanotechnologyComposite materialAgronomyChemistryBiologyComposite numberOrganic chemistryPhotocatalysisCatalysisLayer (electronics)Advanced Photocatalysis TechniquesCatalytic Processes in Materials ScienceAmmonia Synthesis and Nitrogen Reduction
Biomass‐Induced Diphasic Carbon Decoration for Carbon Nitride: Band and Electronic Engineering Targeting Efficient N<sub>2</sub> Photofixation | Litcius