N.N. Hamel scite author profile

Three types of platinized n-type anatase titanium dioxide powders were synthesized for use as photosensitizers in the oxidation of a-methylstyrene in acetonitrile suspensions. The oxidized, reduced, and n-octyl surface derivatized powders had mean particle diameters which ranged from 6.2 to 6.8 fim and BET surface areas (N2 adsorption) which varied from 72 to 75 m2/g. Photooxidations that employed the synthesized oxidized powders had an incident monochromatic photon-to-product efficiency of 0.037 ± 0.002 using 366-nm light. This represents a 7.6-fold increase in the photoefficiency when compared with platinized commercial anatase. This increased efficiency is attributed to surface characteristics that promote interfacial charge transfer versus electron-hole recombination. The powders possess a high roughness factor (approximately 300) and a surface topography that can be described by a fractal dimension (D ~3.0). An additional 2.3-fold increase over the synthesized oxidized powders is realized for the n-octyl-derivatized powders. This additional improvement is attributed to an increase in the surface affinity of the semiconductor particles for the nonpolar hydrocarbon starting material.

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New polyfluoroalkoxysulfonyl fluorides. Part VIII. Alcoholic and polymeric derivatives

Hamel

Gard

1994

Journal of Fluorine Chemistry

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Perfluoro/polyfluoroalkoxylsulfonyl fluorides — precursors to new ion conductors, fuel cell electrolytes and polymeric coatings

Hamel

Ullrich

Gard

et al. 1995

Journal of Fluorine Chemistry

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N.N. Hamel

Lithium salts of SF5 alkylsulfonic acids: synthesis, characterization and conductivity

Homopolymerization and copolymerization studies of HCH2OCF2CF2SO2F. Part VII

Interfacial factors that affect the photoefficiency of semiconductor-sensitized oxidations in nonaqueous media

New polyfluoroalkoxysulfonyl fluorides. Part VIII. Alcoholic and polymeric derivatives

Perfluoro/polyfluoroalkoxylsulfonyl fluorides — precursors to new ion conductors, fuel cell electrolytes and polymeric coatings

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