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Controlling Electronic Properties of Carbon Nitride Nanotubes by Carbon Doping for Photocatalytic H<sub>2</sub> Production

Shuo Zhao, Daoyun An, Yanyun Wang, Jiasheng Fang, Yuming Zhou, Shuping Zhuo

2023ACS Applied Nano Materials20 citationsDOI

Abstract

Carbon nitride is a promising photocatalyst, but its catalytic performance is inhibited by a low charge-transfer rate and a limited surface area. Herein, a carbon (C)-doped carbon nitride nanotube with abundant π-electrons was developed by using nicotinamide and melamine as precursors through a supramolecular self-assembly method. The experiments and density functional theory (DFT) analysis prove the important function of doped C in catalytic performance. Carbon doping endows carbon nitride with plentiful π-electrons, which effectively promote charge migration and separation. Besides, the nanotubular structure provides unique porous channels for water splitting and an improved light-harvesting ability. Benefiting from the synergic effects of carbon doping and tubular texture, carbon-doped carbon nitride exhibits an excellent H 2 evolution rate of 10 089 μmol h –1 g –1 with Pt and triethanolamine (TEOA) as a cocatalyst and a sacrificial agent, respectively, under λ ≥ 400 nm, which is superior to bulk CN (920 μmol h –1 g –1 ). This significant method offers guidance for the adjustment of the texture and electron density within carbon nitride.

Topics & Concepts

Carbon nitrideMaterials scienceCarbon fibersNitrideMelaminePhotocatalysisTriethanolamineCarbon nanotubeDensity functional theoryNanotechnologyChemical engineeringDopingCatalysisChemistryAnalytical Chemistry (journal)Composite materialOrganic chemistryComputational chemistryOptoelectronicsComposite numberEngineeringLayer (electronics)Advanced Photocatalysis TechniquesGas Sensing Nanomaterials and SensorsCatalytic Processes in Materials Science