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

Authors
신준철Geonhee LeeMyungwoo ChoiHuiwon JangYunsung Lim김광수Sang-Hyeon Nam백승협송현철Jihan Kim강종윤Jeong-O. LeeSeokwoo JeonDonghwi Cho장지수
Issue Date
2023-09
Publisher
Royal Society of Chemistry
Citation
Journal of Materials Chemistry A, v.11, no.34, pp.18195 - 18206
Abstract
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 (<5 nm) polyelemental nanoparticles with a uniform size distribution on a three-dimensional (3D) metal oxide nanostructure. Specifically, an intense pulse light treatment on highly periodic 3D thin-shell TiO2 triggers an intensive photothermal effect, enabling instant reduction of various surface-decorated metal ion precursors into an atomically mixed heterostructure. Experimental and computational studies were conducted to investigate the physicochemical reactions occurring on the heterometal catalysts. As a proof-of-concept, the universal photocatalytic utility of dual-mode photoactivated quaternary phase (PtPdNiCo) NPs incorporated into 3D TiO2 was demonstrated for gaseous chemical sensing and degradation of environmental pollutants in water.
Keywords
PHOTOCATALYTIC DEGRADATION; METHYLENE-BLUE; SURFACE-ENERGY; NANOPARTICLES; POLLUTANTS; WATER; IRRADIATION; MORPHOLOGY; PHASE; ZNO
ISSN
2050-7488
URI
https://pubs.kist.re.kr/handle/201004/79845
DOI
10.1039/d3ta02160b
Appears in Collections:
KIST Article > 2023
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