Production of hydrogen by ultraviolet irradiation of

David K. Erwin, Gregory L. Geoffroy, Harry B. Gray, George S. Hammond, Edward I. Solomon, William C. Trogler, and Arnis A. Zagars. J. Am. Chem. Soc. ,...
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Production of Hydrogen by Ultraviolet Irradiation of M02( in Aqueous Sulfuric Acid. Electronic Absorption Spectrum of K3Mo2(S04)4-3.5H20 at 15 K David K. Erwin,la Gregory L. Geoffroy,lb Harry B. Gray,*la George S. Hammond,lc Edward I. Solomon,ld William C. Trogler,la and Arnis A. ZagarsIb Contribution No. 5462 from the Arthur Amos Noyes Laboratory of Chemical Physics, California Institute of Technology, Pasadena, California 91 125, the Department of Chemistry, Pennsylvania State University, University Park, Pennsylvania 16802, the Department of Chemistry, Division of Natural Sciences, University of California at Santa Cruz, California 95060, and the Department of Chemistry, Massachusetts Institute of Technology, Cambridge, Massachusetts 021 39. Received November 8, 1976

Abstract: Ultraviolet irradiation ( A 254 nm) of M02(S04)44- in 5 M H2SO4 produces H2 and the one-electron oxidation product M02(S04)43-. The disappearance quantum yield of M o ~ ( S 0 4 ) 4 ~is- 0.17 a t 254 nm. T h e spectrum of K3Mo~(S04)43 . 5 H 2 0 exhibits an absorption band at 1405 nm ( e 143); this band shows a vibrational progression in a 350-cm-I fundamental even in 5 M D2SO4 solution a t room temperature. At 15 K additional vibronic structure is resolved. This band is assigned to the N E type transition 6 6* (ZB2, z B ~ u ) .

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It has been shown previously that ultraviolet irradiation of aqueous acidic solutions containing one-electron reductants such as Fe2+ yield hydrogen.2 W e are presently exploring the photoredox behavior of low-valent molybdenum complexes containing strong metal-metal bonds, and in particular are directing our attention to systems that are capable of reducing hydronium ions. Herein we report the results of an investigation of the photoreactivity of M02(S04)4~-in aqueous sulfuric acid. The near infrared spectrum of K3Mo2(S04)4'3.5H20 at 15 K has also been studied.

Isosbestic points are initially maintained a t 578 and 420 nm and shoulders develop at 570 and 405 nm. A quantum yield of 0.17 was obtained for disappearance of M02(S04)4~-. Mass spectral analysis of the gas formed by irradiating Mo2(S04)44- in 5 M H2SO4 solution confirmed that H2 was produced. Thus the principal photoreaction must correspond to

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254 nm

H+(aq)

+ M o ~ ( S O ~ ) ~ ~ - Y2H2 + M o ~ ( S O ~ ) (~1 ~) -

An exhaustively photolyzed solution yielded 0.31 mol of

Experimental Section The compounds K ~ M O ~ ( S Oand ~ )K3M02(S04)