1. Multimodal Control of Liquid Crystalline Mesophases from Surfactants with Photoswitchable Tails
- Author
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Evans, Rachel, Houston, Judith E, Kelly, Elaine A, Kruteva, Margarita, Chrissopoulou, Kiriaki, Cowieson, Nathan, Evans, Rachel Claire [0000-0003-2956-4857], and Apollo - University of Cambridge Repository
- Subjects
3403 Macromolecular and Materials Chemistry ,34 Chemical Sciences ,7 Affordable and Clean Energy ,4016 Materials Engineering ,40 Engineering - Abstract
Non-invasive manipulation of the hierarchical structure of functional materials is a key challenge in the advancement of optoelectronics, energy conversion and storage devices and drug delivery systems. Here, using a combination of small-angle X-ray scattering and polarised optical microscopy, we decipher the various structure/self- assembly relationships of neutral surfactants bearing photoswitchable tails, which self-organise into a rich variety of lyotropic liquid crystalline mesophases. Facile, multimodal control of the nanoscale morphology of these single-component systems is achieved through: i) molecular structure, via careful selection of the alkyl tail/ethylene oxide headgroup lengths; ii) concentration; iii) temperature; and iv) photoisomerisation. The nanoscale architectures range from the weakly concentrated hyperswollen lamellar phases, the more common lyotropic lamellar and hexagonal phases, to pure thermotropic liquid crystals; all of which are accessible at room temperature. Photoisomerisation with UV light leads to the reversible destruction of the liquid crystalline phase, which can be spatially controlled through the use of a mask. This extensive study demonstrates the versatility of neutral photosurfactants and paves the way for them to be investigated for new applications, such as photoresponsive templates or drug delivery systems.
- Published
- 2019
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