Electron tunneling in molecular solids.  An orbital overlap model

Brocklehurst, B.

doi:10.1021/j100467a022

Cited by 45 publications

(13 citation statements)

References 8 publications

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“…From (28) (34) we are able to calculate the time-dependent ET probability for a given encounter complex with energy e and relative orientation W, once the equation set (3 1~) is solved for P ( t ) .…”

Section: The Equation Of Motion and The Et Probabilitymentioning

confidence: 99%

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Electron transfer reactions dynamically coupled to a dielectric medium: Orientational effects and bridge assistance

Mikkelsen

Ratner

1987

Int. J. Quantum Chem.

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A new treatment for studying electron transfer reactions is considered. The treatment allows for a detailed description of the electronic structure and is therefore appropriate for a complete description of weakly interacting electron transfer reactions. The initial state for the electron transfer system is selected by a variational scheme. The electron transfer is pictured to take place in an encounter complex consisting of the donor, the acceptor, and (optionally) a solvenubridge molecule. The electronic structure of the encounter complex is dynamically coupled to the surrounding solvent, and the direct time evolution of the electron transfer system is followed by a nonlinear time-dependent Hartree-Fock method. We present examples with benzeneanion radical as the donor, pyridine as the acceptor, and water as the bridgekolvent molecule. The general formalism appears to be a useful approach for studying electron transfer reactions in solution.

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Section: The Equation Of Motion and The Et Probabilitymentioning

confidence: 99%

“…Some of the first theoretical studies of distance and orientation effects of the encounter were more or less based on arguments concerning changes in the overlapelement and did not involve explicit calculations (Ratner and Madhukar [16], Brockelhurst [34], and Rice and Pilling [35]). …”

Section: Introductionmentioning

confidence: 99%

Electron transfer reactions dynamically coupled to a dielectric medium: Orientational effects and bridge assistance

Mikkelsen

Ratner

1987

Int. J. Quantum Chem.

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“…Theoretically the dependence of electron tunneling efficiency on mutual reagents' orientation in vitreous matrices is not strange. The anisotropy of electron tunneling can be explained by the anisotropic pattern of wave functions or by the non-sphericity of the reagents (Doctorov er al., 1982;Brocklehurst, 1979: Siders et al, 1984. The suggestion that the electron tunneling rate depends on mutual reagents n It,) orientation is quite reasonable for metalloporphyrins since the a-orbitals of pigments take part in the process.…”

Section: Electron Tunneling In Reactions Of Metalloporphyrin Moleculementioning

confidence: 99%

Long Range Electron Tunneling in Biological and Model Systems

Khairutdinov

Brickenstein

1986

Photochem & Photobiology

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Abstract-This review paper reports the data on the role of long range electron tunneling in photosynthetic and model systems. The main papers concerned with elucidation mechanisms and kinetical peculiarities of electron transfer in reaction centers of bacteria and green plants are considered. The paper reviews the articles on long range electron transfer in reactions of metalloporphyrinssynthetic analogs of the main natural pigment of photosynthesis, chlorophyll. Liquid and solid phase redox reactions of electronically excited porphyrin molecules, intramolecular and photosensitized electron transfer processes are considered.

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“…In an earlier theoretical study of orientation effects 19 it was assumed that the matrix element HsA is approximately proportional to the overlap integral SsA. For (m,l) = (0,0) states (i.e., states for which I= m = 0 with spherical wells of radius b ) the overlap is given by Since H sA is the overlap of the two functions in well B multiplied by V~ the quantity plotted would be approximately constant if S 8 A were proportional to HsA.…”

Section: Comparison Of Electronic Matrix Elements To Overlap Integralmentioning

confidence: 99%

A model for orientation effects in electron-transfer reactions

Siders

Cave

Marcus

1984

The Journal of Chemical Physics

118

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A method for solving the single-particle Schrooinger equation with an oblate spheroidal potential of finite depth is presented. The wave functions are then used to calculate the matrix element T.h "h ~ w 1c appears in theories of nonadiabatic electron transfer. The results illustrate the effects of mutual orientation and separation of the two centers on T BA. Trends in these results are discussed in terms of geometrical and nodal structure effects. Analytical expressions related to TBA for states of spherical wells are presented and used to analyze the nodal structure effects for T. for h h .BA t e sp ermdal wells.

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Electron tunneling in molecular solids. An orbital overlap model

Cited by 45 publications

References 8 publications

Electron transfer reactions dynamically coupled to a dielectric medium: Orientational effects and bridge assistance

Electron transfer reactions dynamically coupled to a dielectric medium: Orientational effects and bridge assistance

Long Range Electron Tunneling in Biological and Model Systems

A model for orientation effects in electron-transfer reactions

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