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The practical utility of ternary nickel-cobalt-manganese oxide-supported platinum catalysts for room-temperature oxidative removal of formaldehyde from the air

Authors
Hua, YongbiaoVikrant, KumarKim, Ki-HyunHeynderickx, Philippe M.Boukhvalov, Danil W.
Issue Date
Jul-2024
Publisher
Academic Press
Keywords
Catalytic oxidation; Formaldehyde; Indoor air; Transition metal oxide; Volatile organic compounds
Citation
Journal of Colloid and Interface Science, v.665, pp 1029 - 1042
Pages
14
Indexed
SCIE
SCOPUS
Journal Title
Journal of Colloid and Interface Science
Volume
665
Start Page
1029
End Page
1042
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/207956
DOI
10.1016/j.jcis.2024.04.005
ISSN
0021-9797
1095-7103
Abstract
Formaldehyde (FA), a carcinogenic oxygenated volatile organic compound, is present ubiquitously in indoor air. As such, it is generally regarded as a critical target for air quality management. The oxidative removal of FA under dark and room-temperature (RT) conditions is of practical significance. A series of ternary nickel–cobalt-manganese oxide–supported platinum catalysts (Pt/NiCoMnO4) have been synthesized for FA oxidative removal at RT in the dark. Their RT conversion values for 50 ppm FA (XFA) at 5,964 h−1 gas hourly space velocity (GHSV) decrease in the following order: 1 wt% Pt/NiCoMnO4 (100 %) > 0.5 wt% Pt/NiCoMnO4 (25 %) > 0.05 wt% Pt/NiCoMnO4 (14 %) > NiCoMnO4 (6 %). The catalytic performance of 1 wt% Pt/NiCoMnO4 has been examined further under the control of various process variables (e.g., catalyst mass, flow rate, relative humidity, FA concentration, time on stream, and molecular oxygen content). The catalytic oxidation of FA at low temperatures (e.g., RT and 60 °C) is accounted for by Langmuir–Hinshelwood mechanism (single-site competitive-adsorption), while Mars van Krevelen kinetics is prevalent at higher temperatures. In situ diffuse-reflectance infrared Fourier-transform spectroscopy reveals that FA oxidation proceeds through a series of reaction intermediates such as DOM, HCOO–, and CO3 2–. Based on the density functional theory simulations, the unique electronic structures of the nearest surface atoms (platinum and nickel) are suggested to be responsible for the superior catalytic activity of Pt/NiCoMnO4.
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