Intramolecular Electron and Energy Transfer within a Bisporphyrin in a Low-Temperature Glass

Intramolecular Electron and Energy Transfer within a Bisporphyrin in a Low-Temperature Glass

The photophysical properties of an oblique bisporphyrin, comprising zinc(II) and gold (III) porphyrins separated by a 2,7-diphenyl-1,10-phenanthroline spacer moiety, have been measured in a low-temperature ethanol glass. Comparison with the properties recorded earlier in fluid, polar solution indica...

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Bibliographic Details
Published in:Journal of physical chemistry (1952) Vol. 98; no. 19; pp. 4982 - 4989
Main Authors: Harriman, Anthony, Heitz, Valerie, Ebersole, Marie, van Willigen, Hans
Format: Journal Article
Language:English
Published: United States American Chemical Society 01-05-1994
Subjects:
400102 - Chemical & Spectral Procedures
400201 - Chemical & Physicochemical Properties
400500 - Photochemistry
ALCOHOLS
CARBOXYLIC ACIDS
CHEMICAL REACTIONS
COMPILED DATA
COMPLEXES
DATA
DECOMPOSITION
DIELECTRIC PROPERTIES
ELECTRICAL PROPERTIES
ELECTRON SPIN RESONANCE
ELECTRON TRANSFER
ENERGY TRANSFER
ETHANOL
FLUORESCENCE
FREEZING
GLASS
GOLD COMPLEXES
HETEROCYCLIC ACIDS
HETEROCYCLIC COMPOUNDS
HYDROXY COMPOUNDS
INFORMATION
INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY
LASERS
LUMINESCENCE
MAGNETIC RESONANCE
MULTIPLETS
NUMERICAL DATA
ORGANIC ACIDS
ORGANIC COMPOUNDS
ORGANIC NITROGEN COMPOUNDS
ORGANOMETALLIC COMPOUNDS
PHOTOCHEMICAL REACTIONS
PHOTOLYSIS
PHYSICAL PROPERTIES
PORPHYRINS
RADICALS
RESONANCE
TRANSITION ELEMENT COMPLEXES
TRIPLETS
ZINC COMPLEXES
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Summary:The photophysical properties of an oblique bisporphyrin, comprising zinc(II) and gold (III) porphyrins separated by a 2,7-diphenyl-1,10-phenanthroline spacer moiety, have been measured in a low-temperature ethanol glass. Comparison with the properties recorded earlier in fluid, polar solution indicates that the energy of the intermediate charge-transfer state (CTS), formed by electron transfer from zinc porphyrin to appended gold porphyrin, is increased by 0.75 eV upon freezing. This is due to a substantial decrease in the static dielectric constant of the solvent which occurs upon moving from a fluid solution to a frozen glass. There is a corresponding decrease in the solvent reorganization energy upon freezing, and, at 77 K, both the reorganization energy and the reaction exergonicity are essentially zero. The rate of formation of the CTS at 77 K is much slower than that predicted for a superexchange mechanism unless there is a change in the molecular architecture upon freezing. Formation of an intermediate CTS has been confirmed by low-temperature EPR studies. The gold porphyrin excited triplet state is unable to abstract an electron from the appended zinc porphyrin, and, instead, quantitative intramolecular triplet energy transfer takes place. 51 refs., 11 figs., 3 tabs.
Bibliography:ark:/67375/TPS-1B32VXWV-8
istex:8E0D05AB4B630B026D8CAF1B630D849620648B03
FG02-84ER13242
ISSN:0022-3654
1541-5740
DOI:10.1021/j100070a007