Photoswitchable azobenzene‐ and stilbene‐based chromophores bearing terminal nitro groups: Synthesis, thermal and photochemical properties

Abstract: This study examined the effects of aromatic cores and spacer lengths of chromophore structures on photoreactivity and mesomorphic properties of a series of azobenzene‐ and stilbene‐based chromophores bearing electron‐withdrawing (NO2) terminal groups caused by esterification reactions. The chromophores were composed of liquid crystalline mesophases with six or 11 methylene segments as spacers and with azobenzene (NN) and stilbene (CC) aromatic cores. The target compounds were further characterised using… Show more

“…Incorporating light-responsive molecular moieties in the pores that can photoswitch between two isomers provides a method to alter pore dimension and polarity. , Azobenzenes, stilbenes, and acylhydrazones are light-responsive compounds that isomerize reversibly when irradiated with light. − Among these units, azobenzenes are the most convenient building blocks, since their synthesis is relatively straightforward, and photoisomerization is brought about by convenient light sources with wavelengths of ∼400 nm, whereas stilbene and acylhydrazone are switched by light of shorter wavelengths …”

Nanoporous Films with Photoswitchable Absorption Kinetics Based on Polymerizable Columnar Discotic Liquid Crystals

“…Incorporating light-responsive molecular moieties in the pores that can photoswitch between two isomers provides a method to alter pore dimension and polarity. , Azobenzenes, stilbenes, and acylhydrazones are light-responsive compounds that isomerize reversibly when irradiated with light. − Among these units, azobenzenes are the most convenient building blocks, since their synthesis is relatively straightforward, and photoisomerization is brought about by convenient light sources with wavelengths of ∼400 nm, whereas stilbene and acylhydrazone are switched by light of shorter wavelengths …”

Nanoporous Films with Photoswitchable Absorption Kinetics Based on Polymerizable Columnar Discotic Liquid Crystals

Photoelectrical properties and excited-state dynamics of a nitrostilbene-functionalized organosiloxane liquid crystal

Visible light driven low temperature photoactive energy storage materials for high rate thermal output system