AI Article Synopsis
- Photochromic molecules, particularly naphthopyrans, can change color when exposed to UV light, making them useful for sunglasses that darken in sunlight and revert in darkness.
- A significant issue is that some naphthopyrans create a long-lasting unwanted photoisomer, which slows down the transition back to colorless.
- A newly designed bridged naphthopyran eliminates this issue, allowing for rapid color changes in just milliseconds and is also easy to produce and modify for different applications.
Article Abstract
Photochromic molecules can reversibly develop color upon irradiation with UV light. These smart molecules, mainly in the naphthopyran family, have been applied with success to ophthalmic lenses that darken quickly under sunlight and revert to the uncolored state after several minutes in the dark. This slow adaptation to the absence of light is one of the limitations and is due to the formation of an unwanted photoisomer. We have designed a new naphthopyran with a bridged structure which prohibits the formation of the undesirable, persistent photoisomer and thus shows a very fast switching between the uncolored and colored states. UV irradiation of a hybrid siloxane matrix doped with the new fused naphthopyran leads to the formation of a pink coloration bleaching in a few milliseconds, in the absence of light, at room temperature. This new fused naphthopyran is easily prepared in three steps from readily accessible precursors and is amenable to structural modifications to tailor color and lifetime of the colored photoisomer.
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| http://dx.doi.org/10.1021/acs.joc.5b02116 | DOI Listing |
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