Sunlight Induced Photo-thermal Synergistic Catalytic CO2 Conversion via Localized Surface Plasmon Resonance of MoO3-x

DOI：10.1039/C8TA10922B 期刊：Journal of Materials Chemistry A 出版年份：2019 更新时间：2025-09-19 17:15:36

摘要： Photocatalytic conversion of CO2 to solar fuels is considered an alternative approach for simultaneously mitigating the greenhouse effect and solving energy shortage. The efficient light harvesting and the thermochemical conversion has been a demanding quest in photocatalysis due to the relatively low solar energy utilization efficiency. In this work, oxygen vacancies are induced in MoO3 for improving photo-thermal CO2 reduction efficiency by capturing near-infrared (NIR) photons. The localized surface plasmon resonance (LSPR) of MoO3-x triggered by oxygen vacancies endows the efficient capture of NIR photons. Additionally, oxygen vacancies can promote the carrier separation, improve CO2 adsorption on the defective surface and lower the barrier of CO2 hydrogenation during the conversion process. As a result, MoO3-x displayed dramatically enhanced photo-thermal synergistic CO2 reduction under simulated sunlight (UV-Vis-IR) irradiation than that of MoO3. The amount of CO produced by MoO3-x can reach 10.3 μmol·g-1·h-1, which is 20 times higher than that of MoO3 (0.52 μmol·g-1·h-1). And the CH4 production of MoO3-x can reach 2.08 μmol·g-1·h-1, which is 52 times higher than that of MoO3 (0.04 μmol·g-1·h-1). In-situ FT–IR and theoretical calculation also proved the enhanced activity of MoO3-x. This work highlights the significance of defect engineering for improving the photo-thermal catalytic conversion of CO2.

关键词： carbon dioxide photothermal conversion MoO3-x solar energy

作者： Jue Li，Yinghao Ye，Liqun Ye，Fengyun Su，Zhaoyu Ma，Jindi Huang，Haiquan Xie，Dmitry E. Doronkin，Anna Zimina，Jan-Dierk Grunwaldt，Ying Zhou

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研究概述实验方案设备清单

研究目的

Investigating the enhancement of photo-thermal synergistic catalytic CO2 conversion using oxygen-deficient MoO3-x with localized surface plasmon resonance effects.

研究成果

Oxygen-deficient MoO3-x exhibits significantly enhanced photo-thermal synergistic catalytic activity for CO2 reduction due to LSPR effects, improved charge separation, better CO2 adsorption, and lower reaction barriers, demonstrating the effectiveness of defect engineering in photocatalysis.

研究不足

The study focuses on MoO3-x and may not generalize to other materials. The catalytic performance is evaluated under controlled laboratory conditions, and scalability or long-term stability in real-world applications is not addressed. The specific equipment models and brands are not detailed, which could affect reproducibility.

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设备名称型号厂家功能

X-ray diffractometer
Characterization of crystal structure via XRD patterns
scanning electron microscope
Microstructure analysis of samples

transmission electron microscope
Detailed crystal morphology and lattice analysis
UV-Vis-NIR spectrophotometer
Measurement of light absorption spectra
X-ray photoelectron spectrometer
Analysis of chemical states and oxygen defects
electron spin resonance spectrometer
Detection of oxygen defects via ESR signals
Raman spectrometer
Confirmation of oxygen vacancies
synchrotron radiation source
XAS measurements for defect analysis
BET analyzer
Surface area and pore size distribution analysis
temperature-programmed desorption system
CO2 adsorption strength measurement
photoelectrochemical station
Photocurrent response measurements
fluorescence spectrometer
PL spectra and time-resolved PL analysis
in-situ FT-IR spectrometer
Monitoring reaction intermediates during catalysis
computational tools
DFT calculations for reaction pathways and energy barriers
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