Improving the kinetics and dark equilibrium of donor-acceptor Stenhouse adduct by triene backbone design
Peterson JA, Stricker FJ, Read de Alaniz J. 2022. Improving the kinetics and dark equilibrium of donor-acceptor Stenhouse adduct by triene backbone design. Chemical Communications. 58(14), 2303–2306.
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Author
Peterson, Julie A.;
Stricker, Friedrich JISTA;
Read de Alaniz, Javier
Abstract
DFT calculations were used to find an optimal substitution site on the triene backbone of a donor–acceptor Stenhouse adduct photoswitch to tune the equillibrium and switching kinetics of DASA without modifying the donor and acceptor groups. Using this approach we demonstrate a new means to tuning DASA based photoswitches by increasing the energy of the closed form relative to the open form. To highlight the potential of this approach a new DASA derivative bearing a methyl substituent on the 5-position of the triene was synthesized and the effect of this substitution was studied using 1H NMR spectroscopy, time-dependent UV-Vis and solvatochromic analysis. The new DASA derivative shows a higher dark equillibrium, favoring the open form, and drastically faster thermal recovery than the unsubstituted derivative with the same donor and acceptor.
Publishing Year
Date Published
2022-01-17
Journal Title
Chemical Communications
Publisher
Royal Society of Chemistry
Volume
58
Issue
14
Page
2303-2306
ISSN
eISSN
IST-REx-ID
Cite this
Peterson JA, Stricker FJ, Read de Alaniz J. Improving the kinetics and dark equilibrium of donor-acceptor Stenhouse adduct by triene backbone design. Chemical Communications. 2022;58(14):2303-2306. doi:10.1039/d1cc06235b
Peterson, J. A., Stricker, F. J., & Read de Alaniz, J. (2022). Improving the kinetics and dark equilibrium of donor-acceptor Stenhouse adduct by triene backbone design. Chemical Communications. Royal Society of Chemistry. https://doi.org/10.1039/d1cc06235b
Peterson, Julie A., Friedrich J Stricker, and Javier Read de Alaniz. “Improving the Kinetics and Dark Equilibrium of Donor-Acceptor Stenhouse Adduct by Triene Backbone Design.” Chemical Communications. Royal Society of Chemistry, 2022. https://doi.org/10.1039/d1cc06235b.
J. A. Peterson, F. J. Stricker, and J. Read de Alaniz, “Improving the kinetics and dark equilibrium of donor-acceptor Stenhouse adduct by triene backbone design,” Chemical Communications, vol. 58, no. 14. Royal Society of Chemistry, pp. 2303–2306, 2022.
Peterson JA, Stricker FJ, Read de Alaniz J. 2022. Improving the kinetics and dark equilibrium of donor-acceptor Stenhouse adduct by triene backbone design. Chemical Communications. 58(14), 2303–2306.
Peterson, Julie A., et al. “Improving the Kinetics and Dark Equilibrium of Donor-Acceptor Stenhouse Adduct by Triene Backbone Design.” Chemical Communications, vol. 58, no. 14, Royal Society of Chemistry, 2022, pp. 2303–06, doi:10.1039/d1cc06235b.
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