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Visible–Ultraviolet Upconversion Carbon Quantum Dots for Enhancement of the Photocatalytic Activity of Titanium Dioxide

Yiqing Deng, Mengxiao Chen, Gang Chen, Wangcai Zou, Yanqing Zhao, Huan Zhang, Qiang Zhao

2021ACS Omega150 citationsDOIOpen Access PDF

Abstract

Visible–ultraviolet upconversion carbon quantum dots (CQDs) are synthesized with a hydrothermal method using l-glutamic acid (l-Glu) and m-phenylenediamine (MPD) and then combined with commercial nano-TiO2 to prepare CQDs/TiO2 composites. The fluorescence spectra prove that the prepared CQDs can convert approximately 600 nm visible light into 350 nm ultraviolet light. In photocatalysis experiments, CT-1, a CQDs/TiO2 composite with 1:1 molar ratio of l-Glu to TiO2, has the best degradation efficiency for methyl orange (MO). Transmission electron microscopy (TEM) and X-ray photoelectron spectroscopy (XPS) experiments confirm that CT-1 is composed of quasi-spherical nano-TiO2 and CQDs with a crystal plane of graphitic carbon. CT-1 can degrade 70.56% of MO (40 ppm) within 6 h under the irradiation of a 600 nm light source, which is close to its degradation rate of 78.75% under 365 nm ultraviolet light. The apparent rate constant of CT-1 degradation equation is 12.7 times that of TiO2. Free radical scavenging experiments and electron spin resonance (ESR) tests show that the degradation ability should be attributed to the existence of h+ and •OH under visible light. Therefore, we provide a simple and low-cost solution with heavy-metal-free products to improve the photocatalytic performance of TiO2.

Topics & Concepts

PhotocatalysisX-ray photoelectron spectroscopyPhoton upconversionMaterials scienceUltravioletVisible spectrumPhotochemistryTitanium dioxideMethyl orangeElectron paramagnetic resonanceUltraviolet lightAnalytical Chemistry (journal)Chemical engineeringChemistryOptoelectronicsDopingNuclear magnetic resonanceCatalysisComposite materialOrganic chemistryEngineeringPhysicsCarbon and Quantum Dots ApplicationsAdvanced Photocatalysis TechniquesLuminescence Properties of Advanced Materials
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