Enhancement of Mechanical Properties of Photo‐Responsive Polymers

Abstract: Summary: Photomechanical polymers are characterised by changes in their mechanical properties under light radiation. This process is driven by the reversible isomerisation of chromophores in a polymer matrix. Azobenzene-based materials can switch their isomeric structure from trans to cis by light of appropriate wavelength. When this class of materials is chemically connected to polymers as a side chain or backbone, the polymers show photo-induced mechanical property improvements. This paper reports on the pho… Show more

“…A series of photoresponsive copolymers of methyl methacrylate (MMA) and methacryloyloxy azobenzene (MOAB) (P(MMA/MOAB)) with different loadings of azobenzene (10%, 15%, 20%, 30%, 45%, 65%, and 80%) were prepared by casting at room temperature. [ 53,54 ] Nanoindentation analysis demonstrated that the stiffness of the P(MMA/MOAB) films upon UV light irradiation increased up to 19% with an optimum loading of 30% azobenzene. The original stiffness can be restored by irradiating the thin films with visible light, attributed to the cis → trans photoisomerization of azobenzene.…”

Azobenzene‐Based Photomechanical Biomaterials

“…A series of photoresponsive copolymers of methyl methacrylate (MMA) and methacryloyloxy azobenzene (MOAB) (P(MMA/MOAB)) with different loadings of azobenzene (10%, 15%, 20%, 30%, 45%, 65%, and 80%) were prepared by casting at room temperature. [ 53,54 ] Nanoindentation analysis demonstrated that the stiffness of the P(MMA/MOAB) films upon UV light irradiation increased up to 19% with an optimum loading of 30% azobenzene. The original stiffness can be restored by irradiating the thin films with visible light, attributed to the cis → trans photoisomerization of azobenzene.…”

Azobenzene‐Based Photomechanical Biomaterials

Photo-responsive polymer materials for biological applications