| Literature DB >> 30353702 |
Matthew Hendrikx1,2, Jeroen Ter Schiphorst1,2, Ellen P A van Heeswijk1, Gülistan Koçer3, Christopher Knie4, David Bléger4, Stefan Hecht4, Pascal Jonkheijm3, Dirk J Broer1,2, Albertus P H J Schenning1,2.
Abstract
Light responsive materials that are able to change their shape are becoming increasingly important. However, preconfigurable bistable or even multi-stable visible light responsive coatings have not been reported yet. Such materials will require less energy to actuate and will have a longer lifetime. Here, it is shown that fluorinated azobenzenes can be used to create rewritable and pre-configurable responsive surfaces that show multi-stable topographies. These surface structures can be formed and removed by using low intensity green and blue light, respectively. Multistable preconfigured surface topographies can also be created in the absence of a mask. The method allows for full control over the surface structures as the topographical changes are directly linked to the molecular isomerization processes. Preliminary studies reveal that these light responsive materials are suitable as adaptive biological surfaces.Entities:
Keywords: configurable surface actuation; fluorinated azobenzenes; multistable topographies; visible light responsive liquid crystal networks
Year: 2018 PMID: 30353702 DOI: 10.1002/smll.201803274
Source DB: PubMed Journal: Small ISSN: 1613-6810 Impact factor: 13.281