Journal ArticleDOI
FT-IR study of the adsorption and transformation of formaldehyde on oxide surfaces
TLDR
The adsorption of formaldehyde on different oxides (silica, pure and fluorided alumina, magnesia, titania, thoria, zirconia, and iron oxide) has been studied by FT-IR spectroscopy in the temperature range 170-570 K as mentioned in this paper.Abstract:
The adsorption of formaldehyde on different oxides (silica, pure and fluorided alumina, magnesia, titania, thoria, zirconia, and iron oxide) has been studied by FT-IR spectroscopy in the temperature range 170-570 K. The following adsorbed species have been identified and characterized spectroscopically: (i) physisorbed HCHO, (ii) coordinated HCHO, (iii) dioxymethylene, (iv) polyoxymethylene, (v) formate ions, and (vi) methoxy groups. On silica at 170 K formaldehyde physisorbs on surface OH groups and, by warming, polymerizes producing linear polyoxymethylene. On ionic oxides at about 250 K dioxymethylene is always observed, generally together with variable amounts of the linear polymer that has been isolated on magnesia at 170 K. Heating up to or above room temperature results in the disproportionation of dioxymethylene into formate and methoxide groups, probably via a Cannizzaro-type mechanism. Such a route probably parallels an oxidative route, involving direct oxidation of dioxymethylene into formates, as observed on iron oxide.read more
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NaOH-modified ceramic honeycomb with enhanced formaldehyde adsorption and removal performance.
TL;DR: Considering no demand of noble metal for HCHO removal at ambient temperature and practical reusable capability of Na-CH under mild conditions, this work may provide some new insights into the design and fabrication of advanced catalysts for indoor air purification.
Journal ArticleDOI
FeOx-supported gold catalysts for catalytic removal of formaldehyde at room temperature
TL;DR: In this article, the applied calcination temperature was found to greatly influence both the chemical properties and microstructure of the catalysts, and it was shown that lower calcinations temperature improves the reducibility of catalysts and favors the presence of surface hydroxyl groups.
Journal ArticleDOI
Use of methanol as an ir molecular probe to study the surface of polycrystalline ceria
TL;DR: In this article, the spectra were assigned according to whether the so-formed methoxy species were on-top, doubly or triply bridged to cationic surface sites.
Journal ArticleDOI
Photooxidation of Formic Acid vs Formate and Ethanol vs Ethoxy on TiO2 and Effect of Adsorbed Water on the Rates of Formate and Formic Acid Photooxidation
TL;DR: In this article, Fourier transformed infrared spectroscopy was used to compare the photooxidation rates of formic acid and formate on TiO2 as well as the effect of adsorbed water on formate and formic acids photodecomposition rates.
Journal ArticleDOI
Methanol steam reforming over Pd/ZnO and Pd/CeO2 catalysts
TL;DR: In this article, the selectivities of Pd/ZnO/CeO2 supported methanol steam reforming (MSR) catalysts were investigated and it was shown that Pd was more selective for the production of CO2 than ZnO and CeO2-supported Pd catalysts.
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