O. Weres scite author profile

The use of TiO2 as a photocatalyst for the destruction of organic chemical pollutants in aqueous systems has been extensively studied. One obstacle to the effective utilization of these systems is the relatively inefficient use of the solar spectrum by the photocatalyst. In addition, light delivery to the photocatalyst can be impeded by UV-absorbing components in mixed effluent streams. We present a novel use of TiO2 as a catalyst for the oxidative degradation of organic compounds in water that uses a potential source instead of light to generate reactive oxidants. Application of an anodic bias of >+2 V vs NHE to titanium electrodes coated with niobium-doped, polycrystalline TiO2 particles electrochemically generates hydroxyl radicals at the TiO2 surface. This process has been demonstrated to efficiently degrade a variety of environmentally important pollutants. In addition, these electrodes offer a unique opportunity to probe mechanistic questions in TiO2 catalysis. By comparing substrate degradation rates with increases in current density upon substrate addition, the extent of degradation due to direct oxidation and •OH oxidation can be quantified. The branching ratio for these two pathways depends on the nature of the organic substrate. Formate is shown to degrade primarily via a hydroxyl radical mechanism at these electrodes, whereas the current increase data for compounds such as 4-chlorocatechol indicate that a higher percentage of their degradation may occur through direct oxidation. In addition, the direct oxidation pathway is shown to be more important for 4-chlorocatechol, a strongly adsorbing substrate, than for 4-chlorophenol, which does not adsorb strongly to TiO2.

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The distribution, speciation and geochemical cycling of selenium in a sedimentary environment, Kesterson Reservoir, California, U.S.A.

Weres

Jaouni

Tsao

1989

Applied Geochemistry

141

121

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Solar-Powered Production of Molecular Hydrogen from Water

et al. 2008

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A Ti metal sheet (Ti-Gr.2 sheet, 0.50 mm thick) was cleaned using SiC sandpaper (120 to 240 grit) before coating with substrates. The coating process typically consists of a pre-coat containing Ir and Ta (Ir:Ta = 0.67:0.33 mole ratio), a sealing coat comprising SnO 2 doped with Bi (Sn:Bi = 0.9:0.1), a slurry coating comprising TiO 2 and optionally doped with Bi (Ti:Bi = 0.96:0.04), and an overcoat essentially comprising the oxides of Ti and Bi (Ti:Bi = 0.9:0.1). Each step of coating requires a specific heat treatment regime with different temperatures and times. The anode-cathode couple is composed of a single anode with an active area of contact the electrolyte (10.0×1.2×2.0 cm) and two pieces of the same-sized SS cathode (Hastelloy C-22) faced the both sides of the anode with a distance of separation of 2 mm.

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Kinetics of silica polymerization

Weres

Yee

Tsao

1981

Journal of Colloid and Interface Science

150

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O. Weres

Electrochemical Production of Hydroxyl Radical at Polycrystalline Nb-Doped TiO₂ Electrodes and Estimation of the Partitioning between Hydroxyl Radical and Direct Hole Oxidation Pathways

The distribution, speciation and geochemical cycling of selenium in a sedimentary environment, Kesterson Reservoir, California, U.S.A.

Solar-Powered Production of Molecular Hydrogen from Water

Kinetics of silica polymerization

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O. Weres

Electrochemical Production of Hydroxyl Radical at Polycrystalline Nb-Doped TiO2 Electrodes and Estimation of the Partitioning between Hydroxyl Radical and Direct Hole Oxidation Pathways

The distribution, speciation and geochemical cycling of selenium in a sedimentary environment, Kesterson Reservoir, California, U.S.A.

Solar-Powered Production of Molecular Hydrogen from Water

Kinetics of silica polymerization

Contact Info

Product

Resources

About

Electrochemical Production of Hydroxyl Radical at Polycrystalline Nb-Doped TiO₂ Electrodes and Estimation of the Partitioning between Hydroxyl Radical and Direct Hole Oxidation Pathways