Dimethylcethrene: A Chiroptical Diradicaloid Photoswitch.
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Abstract | :
We describe the synthesis and properties of 13,14-dimethylcethrene, a prototype of a chiral diradicaloid photochemical switch that can be transformed reversibly via conrotatory electrocyclization to its more stable closed form by light (630 nm) or heat and back to its open form by light (365 nm). This system illustrates how the chemical reactivity of a diradicaloid molecule can be translated into a switching function, which alters substantially all electronic parameters, namely, the HOMO-LUMO and the singlet-triplet (ST) energy gaps, and the degree of helical twist. As a result, distinct changes in the optical and chiroptical properties of this system were observed, which allowed us to monitor the switching process by a variety of spectroscopic techniques, including NMR, UV-vis, and CD. In comparison to the previously reported parent molecule cethrene, this system benefits from two methyl substituents installed in the fjord region, which account for the stability of the closed form against oxidation and racemization. The methyl substituents increase the ST energy gap of 13,14-dimethylcethrene by ∼4 kcal mol in comparison to cethrene. Our DFT calculations reveal that the larger ST gap is a result of electronic and geometric effects of the methyl substituents and show the potential of related systems to act as magnetic switches at room temperature. |
Year of Publication | :
2018
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Journal | :
Journal of the American Chemical Society
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Volume | :
140
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Issue | :
34
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Number of Pages | :
10839-10847
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Date Published | :
2018
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ISSN Number | :
0002-7863
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URL | :
https://doi.org/10.1021/jacs.8b05465
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DOI | :
10.1021/jacs.8b05465
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Short Title | :
J Am Chem Soc
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