光降解
掺杂剂
光催化
材料科学
氮化碳
制氢
碳纤维
光化学
氮化硼
氢
化学工程
催化作用
纳米技术
化学
有机化学
兴奋剂
复合数
复合材料
工程类
光电子学
作者
Lin Chen,Wentao Wang,Shuai Cheng,Xiaoli Zhao,Jinqiang Zhang,Zhimin Ao,Chaocheng Zhao,Bin Li,Shuaijun Wang,Shaobin Wang,Hongqi Sun
标识
DOI:10.1016/j.apcatb.2021.120932
摘要
Polymeric carbon nitride (g-C3N4) exhibits only mediocre catalytic activity in photocatalytic environmental remediation and energy conversion because of its limited light absorption and sluggish charge transfer. Herein, we assembled novel, tubular carbon nitride (D-TCN450) with nitrogen defects/boron dopants via a self-supramolecular reaction and NaBH4 thermal reduction approach. Advanced characterization results suggested that introducing the nitrogen defects/boron dopants can effectively promote light trapping, charge separation, and valance-band downshift. Density functional theory and electron spin resonance results further proved that the fusion of cyano groups (nitrogen defects) into the framework of D-TCN450 can facilitate oxygen adsorption to form superoxide radicals. As a result, D-TCN450 exhibited dramatically improved photocatalytic hydrogen evolution and photodegradation of tetracycline hydrochloride at a 4- and 9-fold enhancement compared to pristine g-C3N4, respectively. This integrated engineering strategy might provide a unique paradigm for the rational design of novel photocatalysts for sustainable remediation and energy innovation.
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