Directing Dynamic Control of Red, Green, and Blue Reflection Enabled by a Light-Driven Self-Organized Helical Superstructure

Directing Dynamic Control of Red, Green, and Blue Reflection Enabled by a Light-Driven Self-Organized Helical Superstructure

Two light‐driven chiral molecular switches possessing very high helical twisting powers were introduced into an achiral liquid crystal host enabling a self‐organized, tunable helical superstructure. Marrying reflection wavelength to the wavelength of irradiation offers a distinctive and novel means...

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Veröffentlicht in:Advanced materials (Weinheim) 2011-11, Vol.23 (43), p.5069-5073
Hauptverfasser: Li, Quan, Li, Yannian, Ma, Ji, Yang, Deng-Ke, White, Timothy J., Bunning, Timothy J.
Format: Artikel
Sprache:eng
Schlagworte:
Azo Compounds - chemical synthesis
Azo Compounds - chemistry
chiral materials
Color
Electric Conductivity
Electronics
Light
light-driven devices
Liquid Crystals - chemistry
Magnetics
molecular switches
Naphthalenes - chemical synthesis
Naphthalenes - chemistry
photostationary
Stereoisomerism
tunable helical superstructure
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Zusammenfassung:Two light‐driven chiral molecular switches possessing very high helical twisting powers were introduced into an achiral liquid crystal host enabling a self‐organized, tunable helical superstructure. Marrying reflection wavelength to the wavelength of irradiation offers a distinctive and novel means to simultaneously achieve red, green, and blue reflection colors in a single optical thin film. Photoaddressing of the material system allows for images to be retained, which are hidden with an applied electrical field and restored by application of a mechanical field.
ISSN:0935-9648
1521-4095
DOI:10.1002/adma.201103362