Sensitized layered metal oxide semiconductor particles for photochemical hydrogen evolution from nonsacrificial electron donors

Layered alkali-metal titanates (Na[sub 2]Ti[sub 3]O[sub 7] and K[sub 2]Ti[sub 4]O[sub 9]), niobates (KNb[sub 3]O[sub 8] and K[sub 4]Nb[sub 6]O[sub 17]), and titanoniobates (KTiNbO[sub 5] and CsTi[sub 2]NbO[sub 7]) were internally platinized, acid-exchanged, sensitized with ruthenium polypyridyl comp...

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Bibliographic Details
Published in:Journal of physical chemistry (1952) 1993-11, Vol.97 (45), p.11802-11810
Main Authors: Kim, Yeong Il, Atherton, Stephen J, Brigham, Elaine S, Mallouk, Thomas E
Format: Article
Language:English
Subjects:
08 HYDROGEN
080106 - Hydrogen- Production- Biosynthesis & Photochemical Processes
360606 - Other Materials- Physical Properties- (1992-)
400201 - Chemical & Physicochemical Properties
400500 - Photochemistry
CATALYSTS
CHARGED PARTICLES
CHEMICAL REACTIONS
Chemistry
COMPLEXES
DECOMPOSITION
ELEMENTS
EVALUATION
Exact sciences and technology
General and physical chemistry
HALOGEN COMPOUNDS
HYDRIODIC ACID
HYDROGEN
HYDROGEN COMPOUNDS
INORGANIC ACIDS
INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY
IODINE COMPOUNDS
IODINE IONS
IONS
MATERIALS
MATERIALS SCIENCE
NIOBATES
NIOBIUM COMPOUNDS
NONMETALS
OXYGEN COMPOUNDS
PHOTOCHEMICAL REACTIONS
Photochemistry
PHOTOLYSIS
Physical chemistry of induced reactions (with radiations, particles and ultrasonics)
REFRACTORY METAL COMPOUNDS
RUTHENIUM COMPLEXES
SEMICONDUCTOR MATERIALS
TITANATES
TITANIUM COMPOUNDS
TRANSITION ELEMENT COMPLEXES
TRANSITION ELEMENT COMPOUNDS
WATER
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Description
Summary:Layered alkali-metal titanates (Na[sub 2]Ti[sub 3]O[sub 7] and K[sub 2]Ti[sub 4]O[sub 9]), niobates (KNb[sub 3]O[sub 8] and K[sub 4]Nb[sub 6]O[sub 17]), and titanoniobates (KTiNbO[sub 5] and CsTi[sub 2]NbO[sub 7]) were internally platinized, acid-exchanged, sensitized with ruthenium polypyridyl complexes, and studied as photocatalysts for the production of H[sub 2] and I[sub 3][sup [minus]] from acidic alkali-metal iodide solutions. The titanates were inactive as photocatalysts, whereas the niobates and titanoniobates were active with quantum efficiencies up to 0.3% for HI photolysis with visible light. Calculations based on electronegativity showed that the conduction band edge potentials of the acid-exchanged titanates were too positive to prevent semiconductor-mediated recombination of photogenerated H[sub 2] and I[sub 3][sup [minus]]. Laser flash photolysis/transient diffuse reflectance spectra established that iodide reduces the oxidized sensitizer, forming I[sub 2][sup [sm bullet][minus]], which subsequently decays in a bimolecular reaction to form I[sub 3][sup [minus]]. The inefficiency of HI photolysis can be attributed to charge recombination between I[sub 3][sup [minus]] and conduction band electrons for the niobates and titanoniobates. 29 refs., 16 figs., 1 tab.
ISSN:0022-3654
1541-5740
DOI:10.1021/j100147a038