posted on 2015-07-08, 00:00authored byCary A. Tippets, Qiaoxi Li, Yulan Fu, Eugenii U. Donev, Jing Zhou, Sara A. Turner, Anne-Martine
S. Jackson, Valerie Sheares Ashby, Sergei S. Sheiko, Rene Lopez
Shape memory polymers (SMPs) have
been shown to accurately replicate photonic structures that produce
tunable optical responses, but in practice, these responses are limited
by the irreversibility of conventional shape memory processes. Here,
we report the intensity modulation of a diffraction grating utilizing
two-way reversible shape changes. Reversible shifting of the grating
height was accomplished through partial melting and recrystallization
of semicrystalline poly(octylene adipate). The concurrent variations
of the grating shape and diffraction intensity were monitored via
atomic force microscopy and first order diffraction measurements,
respectively. A maximum reversibility of the diffraction intensity
of 36% was repeatable over multiple cycles. To that end, the reversible
shape memory process is shown to broaden the functionality of SMP-based
optical devices.