Photocatalytic Splitting of Liquid Water by n-TiO<sub>2</sub> Suspension

Photochemical water splitting (H 20 -> H 2 +!02) has been shown to occur on UV irradiation of aqueous suspensions of strontium titanate, modified by surface photodeposition of rhodium species.' Further improvement of the catalytic materials has now been achieved, using thermal deposition techniques. The most active material, prepared by heating rhodium chloride impregnated SrTiO, powder at 500°C in air, allowed one to produce appreciable quantities of (H 2 +!02) gas and to reach high turnover numbers on the catalytic material. The photolysisefficiency presents a strong pH dependence with an optimum around pH -14 and increases markedly when the wavelength of the light decreases from 400 to 300 nm. The amount of rhodium deposited also has a marked effect with an optimum at about 0.2-0.3% Rh by weight. ESCA studies have provided information about the nature of the catalytic deposit and about its relation to the activity of the materials. Catalytic efficiency and mechanistic aspects are discussed. The oxidation state of the rhodium species has a drastic influence: whereas SrTiO, loaded with reduced rhodium shows no catalytic activity, the efficiency increases on progressive oxidation of the deposited metal to surface rhodium(III) species, as detected by ESCA. The photoactive step may involve both band-gap excitation of the semi-conductor support and direct UV excitation of the deposited Rh(III) species.* ERA N°265 of the CNRS. ** ERA W 385 of the CNRS. t The designation Rh/SrTi0 3 has no implication about the oxidation state of the deposited rhodium species; RhO./SrTiO, and Rho/SrTiO, will be used to designate, respectively,surface rhodium oxides of undefined nature and deposited metallic rhodium.

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Purification of drinking water by irradiation. A review

Getoff

1993

J Chem Sci

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The present review deals with the possibilities of water purification by UV-light, solar energy in combination with catalysts (e.g. n-TiO2), as well as by using ionizing radiation (e.g. high energy electrons or y-rays). The various methods are illustrated by typical examples concerning the degradation of aliphatic and aromatic halogenated pollutants in water. Some probable reaction mechanisms initiated by light or ionizing radiation are also given.

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Photocatalytic Splitting of Liquid Water by n-TiO₂ Suspension

Cited by 12 publications

References 8 publications

ChemInform Abstract: PHOTOCATALYTIC SPLITTING OF LIQUID WATER BY N‐TITANIUM DIOXIDE SUSPENSION

ChemInform Abstract: PHOTOCATALYTIC SPLITTING OF LIQUID WATER BY N‐TITANIUM DIOXIDE SUSPENSION

Water Photolysis by UV Irradiation of Rhodium Loaded Strontium Titanate Catalysts. Relation between Catalytic Activity and Nature of the Deposit from Combined Photolysis and ESCA Studies

Purification of drinking water by irradiation. A review

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Photocatalytic Splitting of Liquid Water by n-TiO2 Suspension

Cited by 12 publications

References 8 publications

ChemInform Abstract: PHOTOCATALYTIC SPLITTING OF LIQUID WATER BY N‐TITANIUM DIOXIDE SUSPENSION

ChemInform Abstract: PHOTOCATALYTIC SPLITTING OF LIQUID WATER BY N‐TITANIUM DIOXIDE SUSPENSION

Water Photolysis by UV Irradiation of Rhodium Loaded Strontium Titanate Catalysts. Relation between Catalytic Activity and Nature of the Deposit from Combined Photolysis and ESCA Studies

Purification of drinking water by irradiation. A review

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Product

Resources

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Photocatalytic Splitting of Liquid Water by n-TiO₂ Suspension