Optically Active Diarylethenes for Multimode Photoswitching Between Liquid-Crystalline Phases

Abstract: The control of the structure and optical properties of liquid-crystalline (LC) phases by means of light is a major challenge in the development of molecular device and optical data storage systems. [1] For instance the use of photochromic organic molecules for the modulation of mesophases is illustrated by the switching between nematic and isotropic LC phases based on the photochemical cis±trans isomerization of doped azobenzene in nematic media. [2] It is well known that nematic liquid crystals can be convert… Show more

“…The dialdehyde 10 is a precursor for the bis[(phenylethyl)imino] derivative 12. [26] Furthermore a condensation reaction with malonitrile has been carried out to yield 13. [27] Lithiated 1 can also be quenched with a Brønsted acid to give 9.…”

“…Treatment of this compound with a lithiating reagent would result in lithium/halogen exchange of the chlorine atom at the 2-position instead of deprotonation at the 4-position. Therefore this compound was first brominated at the 4-position using Br 2 in chloroform to give 3-bromo-5-chloro-2-methylthiophene (26). Compound 26 was then lithiated at Ϫ78°C in anhydrous diethyl ether using nBuLi.…”

Syntheses of Dithienylcyclopentene Optical Molecular Switches

“…The dialdehyde 10 is a precursor for the bis[(phenylethyl)imino] derivative 12. [26] Furthermore a condensation reaction with malonitrile has been carried out to yield 13. [27] Lithiated 1 can also be quenched with a Brønsted acid to give 9.…”

“…Treatment of this compound with a lithiating reagent would result in lithium/halogen exchange of the chlorine atom at the 2-position instead of deprotonation at the 4-position. Therefore this compound was first brominated at the 4-position using Br 2 in chloroform to give 3-bromo-5-chloro-2-methylthiophene (26). Compound 26 was then lithiated at Ϫ78°C in anhydrous diethyl ether using nBuLi.…”

Syntheses of Dithienylcyclopentene Optical Molecular Switches

“…5.9) [43][44][45][46][47][48]. For example, doping 1.4 wt% of 6 into nematic LC ZLI-389 can efficiently induce a cholesteric phase with the characteristic fingerprint texture ( Fig.…”

“…After UV irradiation at 300 nm for 50 s, the cholesteric phase disappeared and a characteristic schlieren texture of nematic phase was observed due to the dramatic HTP decrease of the dopant during photoisomerization. Visible light irradiation of the sample for 30 s resulted in the reappearance of the cholesteric fingerprint texture [43].…”

Photoresponsive Cholesteric Liquid Crystals

“…[23] Since this original work, other chromophores have been examined including fulgides, [33,34] chiral cyclohexane olefins, [35,36] and diarylethenes. [37][38][39][40][41][42] Azobenzene has been the most commonly studied chromophore, due to its thermal stability, distinguished absorbance spectra of trans and cis conformers, and the compatibility of the structural unit into preexisting mesogen synthetic pathways. Azobenzene CLCs (azo-CLCs) based on azobenzene-NLCs have larger tuning ranges if the clearing temperature of the mixture is increased.…”

Phototunable Azobenzene Cholesteric Liquid Crystals with 2000 nm Range