2019
DOI: 10.1139/cjc-2018-0422
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Synthesis of amphiphilic asymmetrical dithienylethenes with aryl groups at the reactive carbons

Abstract: A synthetic route for the preparation of amphiphilic asymmetrical dithienylethenes that incorporate methyl groups at the 4- and 4′-positions and an aryl group at one of the reactive carbons has been developed. The presence of a bulky aryl substituent ensures a relatively large change in molecular geometry upon photoisomerization, whereas the presence of methyl groups provide enhanced photostability. Notably, a substituent effect was systematically revealed en route to the preparation of the dithienylethene pre… Show more

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“…The moieties that are utilized to render amphiphiles the photoresponsive nature are azobenzene [3][4][5][6], stilbene [7][8][9][10][11], dithienylethene [12][13][14] and spiropyran [15][16][17][18], to name a few [2]. Such amphiphiles have exhibited, for example, (i) smart principles for the dynamic control of surface tension of aqueous solutions [19], (ii) phenomenon of the light-driven diffusioosmosis upon which one can remove, gather or pattern a particle assembly at a solid-liquid interface [20], (iii) the photo-controlled stability and breakage of foams [21,22], (iv) new macroscopic functions such as liquid droplet transport [23] and bubble manipulation [15], (v) photoswitchable catalytic properties [24], (vi) photochemical OFF/ON cytotoxicity switching [25], etc.…”
Section: Introductionmentioning
confidence: 99%
“…The moieties that are utilized to render amphiphiles the photoresponsive nature are azobenzene [3][4][5][6], stilbene [7][8][9][10][11], dithienylethene [12][13][14] and spiropyran [15][16][17][18], to name a few [2]. Such amphiphiles have exhibited, for example, (i) smart principles for the dynamic control of surface tension of aqueous solutions [19], (ii) phenomenon of the light-driven diffusioosmosis upon which one can remove, gather or pattern a particle assembly at a solid-liquid interface [20], (iii) the photo-controlled stability and breakage of foams [21,22], (iv) new macroscopic functions such as liquid droplet transport [23] and bubble manipulation [15], (v) photoswitchable catalytic properties [24], (vi) photochemical OFF/ON cytotoxicity switching [25], etc.…”
Section: Introductionmentioning
confidence: 99%