Ramsey RA, Sharma SC. Effects of monomer functionality on switchable holographic gratings formed in polymer-dispersed liquid-crystal cells.
Chemphyschem 2009;
10:564-70. [PMID:
19156798 DOI:
10.1002/cphc.200800512]
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Abstract
We investigate the effects of monomer functionality on the formation and switching characteristics of holographic transmission gratings in polymer-dispersed liquid-crystal cells fabricated by using the 633 nm wavelength of an He-Ne laser. We present results for the microstructure, diffraction efficiency eta, and switching characteristics of gratings formed with acrylate monomers of functionalities ranging from 2 to 4. The microstructure and diffraction efficiency are sensitive to functionality; both improve with increasing functionality. For functionalities of 2.5 or more, eta approaches 34% and can be switched off with electric fields of about 20 MV m(-1).
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