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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Adsorption of trimethyl phosphate and triethyl phosphate on dry and water pre-covered hematite, maghemite, and goethite nanoparticles.
TL;DR: The presented results implicate different reactivity depending on specific molecular structure of the organophosphorus compound (larger functional groups can compensate loss of charge due to surface coordination) and iron (hydr)oxide surface structure (exposing Lewis acid or Brønstedt acid sites).
Journal ArticleDOI
Study of Adsorption and Reactions of Methyl Iodide on TiO2
TL;DR: In this article, the adsorption, thermal reactions, and photochemistry of methyliodide were studied on powdered TiO 2 by transmission infrared spectroscopy, and on a single-crystal surface by temperature-programmed desorption (TPDP) and X-ray photoemission spectraopy (XPS).
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Adsorptive Removal of Formaldehyde from Air Using Mixed-Metal Oxides
TL;DR: In this paper, aldehyde compounds have been identified as progressively damaging chemicals impacting human health at small albeit dangerous quantities, and the authors focused on the effects of these chemicals on human health.
Journal ArticleDOI
Fluorescent Hydrogels with Tunable Nanostructure and Viscoelasticity for Formaldehyde Removal
TL;DR: A typical function of the hydrogels of PPCT and KOH mixtures is that formaldehyde (HCHO) can speedily be adsorbed via electrostatic interaction and converted into nontoxic salts (HCOOK and CH3OK), making it a promising candidate material for HCHO removal in home furnishings to reduce indoor environmental pollutants.
Journal ArticleDOI
Hydrogen Formation in the Reactions of Methanol on Supported Au Catalysts
TL;DR: In this paper, the adsorption and reactions of methanol have been investigated on Au metal supported by various oxides and carbon Norit of high surface area, and it is assumed that the interface between Au and partially reduced ceria is responsible for the high activity of Au/CeO2 catalyst.
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