Autor: |
Hamburger, Robert C., Huang, Tao, Martin, Shea M., Pointer, Craig A., Fredin, Lisa A., Young, Elizabeth R. |
Zdroj: |
Physical Chemistry Chemical Physics (PCCP); 6/14/2023, Vol. 25 Issue 22, p15302-15313, 12p |
Abstrakt: |
In this work we untangle the ultrafast deactivation of high-energy excited states in four naphthalene-based azo dyes. Through systematic photophysical and computational study, we observed a structure–property relationship in which increasing the electron donating strength of the substituent leads to longer lived excited states in these organic dyes and faster thermal reversion from the cis to trans configuration. In particular, azo dyes 1–3 containing less electron donating substituents show three distinct excited-state lifetimes of ∼0.7–1.5 ps, ∼3–4 ps, and 20–40 ps whereas the most electron donating dimethyl amino substituted azo 4 shows excited-state lifetimes of 0.7 ps, 4.8 ps, 17.8 ps and 40 ps. While bulk photoisomerization of all four moieties is rapid, the cis to trans reversion lifetimes vary by a factor of 30 with τreversion decreasing from 276 min to 8 min with increasing electron donating strength of the substituent. In order to rationalize this change in photophysical behavior, we explored the excited-state potential energy surfaces and spin–orbit coupling constants for azo 1–4 through density functional theory. The increase in excited-state lifetime for 4 can be attributed to geometric and electronic degrees of freedom of the lowest energy singlet excited-state potential energy surface. [ABSTRACT FROM AUTHOR] |
Databáze: |
Complementary Index |
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