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Atomically mixed catalysts on a 3D thin-shell TiO2 for dual-modal chemical detection and neutralization

Environmental pollutants threaten millions of lives and state-of-the-art strategies, mostly based on surface catalytic activities to remediate environmental issues, have emerged. Despite their active capabilities, traditional schemes are only capable of a single function, either sensing hazardous ch...

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Bibliographic Details
Published in:Journal of materials chemistry. A, Materials for energy and sustainability Materials for energy and sustainability, 2023-08, Vol.11 (34), p.18195-18206
Main Authors: Shin, Joonchul, Lee, Geonhee, Choi, Myungwoo, Jang, Huiwon, Lim, Yunsung, Gwang-Su, Kim, Sang-Hyeon Nam, Baek, Seung-Hyub, Song, Hyun-Cheol, Kim, Jihan, Chong-Yun, Kang, Jeong-O, Lee, Jeon, Seokwoo, Cho, Donghwi, Ji-Soo, Jang
Format: Article
Language:English
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Summary:Environmental pollutants threaten millions of lives and state-of-the-art strategies, mostly based on surface catalytic activities to remediate environmental issues, have emerged. Despite their active capabilities, traditional schemes are only capable of a single function, either sensing hazardous chemicals or their reduction, limiting the identification of clear solutions to environmental problems. This study proposes a material engineering method that adopts both the detection and neutralization of environmental pollutants for remediation. This strategy exploits ultrafast flash lamp-driven thermal engineering to realize ultra-small (
ISSN:2050-7488
2050-7496
DOI:10.1039/d3ta02160b