Journal
JOURNAL OF MATERIALS CHEMISTRY C
Volume 10, Issue 48, Pages 18182-18188Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/d2tc04095f
Keywords
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Funding
- National Natural Science Foundation of China
- Hangzhou leading innovation and entrepreneurship team project
- [21871072]
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In this work, a new method for designing multi-state photochromic molecules by incorporating oligosilane chains into photoactive triphenylvinylthiophene (TPT) luminogens is reported. The introduction of silane chains changes the intramolecular interactions between two TPT units, enabling reversible photochromism even in crystals.
Controllable photochromic molecules both in solutions and solid states (amorphous, films, and crystals) are valuable nascent optical materials. In this work, we report a facial route to design multi-state photochromic molecules by incorporating oligosilane chains into photoactive triphenylvinylthiophene (TPT) luminogens. The flexibility, bulkiness, and unique sigma-pi conjugation brought by silane chains enable different intramolecular interactions between two TPT units. A longer silicon chain bridge facilitates efficient electron delocalization and reduced structural constraint, thus resulting in reversible photochromism even in crystals with high-contrast color differences. This work provides a general method for developing novel multi-state photochromic materials for application in data encryption.
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