Journal article

Electron spin relaxation in radical pairs: beyond the Redfield approximation

Abstract:: Relaxation processes can have a large effect on the spin selective electron transfer reactions of radical pairs. These processes are often treated using phenomenological relaxation superoperators or with some model for the microscopic relaxation mechanism treated within Bloch-Redfield-Wangsness theory. Here, we demonstrate that an alternative perturbative relaxation theory, based on the Nakajima-Zwanzig equation, has certain advantages over Redfield theory. In particular, the Nakajima-Zwanzig equation does not suffer from the severe positivity problem of Redfield theory in the static disorder limit. Combining the Nakajima-Zwanzig approach consistently with the Schulten-Wolynes semiclassical method, we obtain an efficient method for modeling the spin dynamics of radical pairs containing many hyperfine-coupled nuclear spins. This is then used to investigate the spin-dependent electron transfer reactions and intersystem crossing of dimethyljulolidine-naphthalenediimide (DMJ-NDI) radical ion pairs. By comparing our simulations with experimental data, we find evidence for a field-independent contribution to the triplet quantum yields of these reactions which cannot be explained by electron spin relaxation alone.

Publication status:: Published

Peer review status:: Peer reviewed

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APA Style

Fay, T., Lindoy, L., & Manolopoulos, D. (2019). Electron spin relaxation in radical pairs: beyond the Redfield approximation. Journal of Chemical Physics, 151(15).

MLA Style

Fay, T., et al. “Electron Spin Relaxation in Radical Pairs: beyond the Redfield Approximation.” Journal of Chemical Physics, vol. 151, no. 15, AIP Press, 2019.

Chicago Style

Fay, T, L Lindoy, and D Manolopoulos. 2019. “Electron Spin Relaxation in Radical Pairs: beyond the Redfield Approximation.” Journal of Chemical Physics 151 (15).
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Files:: 1910.09870v1.pdf

(Preview, Accepted manuscript, pdf, 6.4MB, Terms of use)

Publisher copy:: 10.1063/1.5125752

Authors

+ Fay, T More by this author

Role:: Author
ORCID:: 0000-0003-0625-731X

+ Lindoy, L More by this author

Role:: Author
ORCID:: 0000-0002-1888-6490

+ Manolopoulos, D More by this author

Institution:: University of Oxford
Division:: MPLS
Department:: Chemistry
Sub department:: Physical & Theoretical Chem
Oxford college:: St Edmund Hall
Role:: Author
ORCID:: 0000-0002-7111-0763

Publisher:: AIP Press
Journal:: Journal of Chemical Physics More from this journal
Volume:: 151
Issue:: 15
Article number:: 154117
Publication date:: 2019-10-12
Acceptance date:: 2019-10-06
DOI:: 10.1063/1.5125752
EISSN:: 1089-7690
ISSN:: 0021-9606
Pmid:: 31640365

Language:: English
Keywords:: physics.chem-ph
Pubs id:: pubs:1068197
UUID:: uuid:77bcd945-1374-458a-b3ce-b4a6253a23c5
Local pid:: pubs:1068197
Source identifiers:: 1068197
Deposit date:: 2019-11-12

Terms of use

Copyright holder:: Fay et al
Copyright date:: 2019
Notes:: © 2019 Author(s). This the accepted manuscript version of the article. The final version is available from AIP Press at: https://doi.org/10.1063/1.5125752

Licence:: Terms and Conditions of Use for Oxford University Research Archive

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