This
work investigates the effect of ultrasound on switching of
cis
azobenzene isomers to their trans counterparts in solid
films of methyl methacrylate and methacryloyloxyazobenzene copolymers
[P(MMA/MOAB)]. Ultraviolet–visible and
1
H nuclear
magnetic resonance spectroscopies demonstrate that 46% of the cis
isomer converts to the trans form purely by ultrasonic agitation and
46% converts to the trans isomer by localized ultrasound-induced heating
effects. Comparative studies of isomerization by ultrasound wave,
heat, and visible irradiation show that ultrasound exposure requires
a longer time to switch the cis-to-trans conformation. The estimated
activation energy for the cis-to-trans conversion in solid polymer
films is shown to be comparable to previous values of azobenzene isomerization,
indicating that incorporation of the chromophore in a polymeric system
affects the kinetics of transition but not the barriers to conformational
change.
The photoresponsive behavior of the glycidyloxyazobenzene (GOAB) monomer, synthesized using an improved method, is examined by UV/Vis spectroscopy. The monomer is cured with diethylenetriamine (DETA), forming a new epoxy resin. Proton NMR spectroscopy is used to monitor the completion of the curing reactions. Kinetics for reversible trans and cis isomerization in the cured system and also in the epoxy monomer are identified by UV/Vis spectroscopy during in situ irradiation with appropriate wavelengths (290-320 nm for UV and 400-500 nm for visible). The rates of recovery of the monomer from cis to trans forms are also obtained by heating and storing in the dark. Furthermore, the reactivity of the monofunctional GOAB monomer with a common amine, DETA, as a curing agent, is investigated using isothermal and dynamic heating scans in a DSC pan and by simultaneously monitoring the near-FTIR spectra. The modified epoxy azobenzene proved to be reactive enough with DETA to form a network that can sustain temperatures of up to 200 C.
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