posted on 2015-05-13, 00:00authored byRui Gao, Ding Cao, Yan Guan, Dongpeng Yan
Highly sensitive stimuli-responsive
fluorescent films play an important
role in smart sensors and readable optical devices. However, systems
involving light-driven fluorescence changes are still limited compared
with photochromic materials that simply change color upon photostimulation.
Herein, by incorporation of stilbene-based molecules into a poly(vinyl
alcohol) host, we have developed new flexible self-supporting nanofiber
films that exhibited fast and obvious photochromic fluorescence (PCF).
The reversible transfer between two fluorescent states can be easily
recycled. Fluorescence microscopy and atomic force microscopy images
supplied in situ evidence of changes in fluorescence and surface morphology,
respectively. Density functional theoretical calculations showed that
the PCF can be attributed to photoisomerization of the stilbene-based
molecules. Therefore, based on the combination of experimental and
theoretical studies, this work not only supplies new stilbene-based
systems with light-induced fluorescence change, but also gives detailed
understanding on the photoisomerization and PCF processes of the nanofibers
systems. We anticipate that these PCF films can be applied in erasable
memory devices and antiforgery materials, and that our strategy may
be extended to other systems to fabricate multistimuli-responsive
fluorescent materials.