posted on 2020-08-26, 19:39authored byThiranjeewa
I. Lansakara, Fei Tong, Christopher J. Bardeen, Alexei V. Tivanski
The
diarylethene derivative, 1,2-bis(2,4-dimethyl-5-phenyl-3-thienyl)perfluorocyclopentene,
undergoes a reversible photoisomerization between its ring-open and
ring-closed forms in the solid-state and has applications as a photomechanical
material. Mechanical properties of macrocrystals, nanowire single
crystals, and amorphous films as a function of multiple sequential
UV and visible light exposures have been quantified using atomic force
microscopy nanoindentation. The isomerization reaction has no effect
on the elastic modulus of each solid. But going from the macro- to
the nanowire crystal results in a remarkable over 3-fold decrease
in the elastic modulus. The macrocrystal and amorphous solids are
highly resistant to photomechanical fatigue, while nanowire crystals
show clear evidence of photomechanical fatigue attributed to a transition
from crystal to amorphous forms. This study provides first experimental
evidence of size-dependent photomechanical fatigue in photoreactive
molecular crystalline solids and suggests crystal morphology and size
must be considered for future photomechanical applications.