Abstract
Increasing the electron density in BF2-coodinated azo compounds through para-substitution leads to a bathochromic shift in their activation wavelength. When the substituent is dimethyl amine, or the like, the trans/cis isomerization process can be efficiently modulated using near infrared light. The electron donating capability of the substituent also controls the hydrolysis half-life of the switch in aqueous solution, which is drastically longer for the cis isomer, while the BF2-coodination prevents reduction by glutathione.
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CITATION STYLE
Yang, Y., Hughes, R. P., & Aprahamian, I. (2014). Near-infrared light activated azo-BF2 switches. Journal of the American Chemical Society, 136(38), 13190–13193. https://doi.org/10.1021/ja508125n
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