Defect engineering enhances plasmonic-hot electrons exploitation for CO2 reduction over polymeric catalysts
Date
2023
Authors
Yin, Hang
Sun, Zhehao
Liu, Kaili
Wibowo, Ary
Langley, Julien
Zhang, Chao
Saji, Sandra
Kremer, Felipe
Golberg, Dmitri
Nguyen, Hieu
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Royal Society of Chemistry
Abstract
Defect sites present on the surface of catalysts serve a crucial role in different catalytic processes. Herein, we have investigated defect engineering within a hybrid system composed of "soft" polymer catalysts and "hard" metal nanoparticles, employing the disparity in their thermal expansions. Electron paramagnetic resonance, X-ray photoelectron spectroscopy, and mechanistic studies together reveal the formation of new abundant defects and their synergistic integrability with plasmonic enhancement within the hybrid catalyst. These active defects, co-localized with plasmonic Ag nanoparticles, promote the utilization efficiency of hot electrons generated by local plasmons, thereby enhancing the CO2 photoreduction activity while maintaining the high catalytic selectivity.
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Nanoscale Horizons
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Journal article
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2099-12-31
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