Hostname: page-component-cd9895bd7-jn8rn Total loading time: 0 Render date: 2024-12-27T02:16:06.577Z Has data issue: false hasContentIssue false

Synthesis and Properties of Multifunctional Polymers

Published online by Cambridge University Press:  21 February 2011

H.A. Goldberg
Affiliation:
Robert L. Mitchell Technical Center, Hoechst Celanese, 86 Morris Avenue, Summit, New Jersey
A.J. East
Affiliation:
Robert L. Mitchell Technical Center, Hoechst Celanese, 86 Morris Avenue, Summit, New Jersey
I.L. Kalnin
Affiliation:
Robert L. Mitchell Technical Center, Hoechst Celanese, 86 Morris Avenue, Summit, New Jersey
R.E. Johnson
Affiliation:
Robert L. Mitchell Technical Center, Hoechst Celanese, 86 Morris Avenue, Summit, New Jersey
H.T. Man
Affiliation:
Robert L. Mitchell Technical Center, Hoechst Celanese, 86 Morris Avenue, Summit, New Jersey
R.A. Keosian
Affiliation:
Robert L. Mitchell Technical Center, Hoechst Celanese, 86 Morris Avenue, Summit, New Jersey
D. Karim
Affiliation:
Robert L. Mitchell Technical Center, Hoechst Celanese, 86 Morris Avenue, Summit, New Jersey
Get access

Abstract

Recent work aimed at developing new polymers which exhibit useful optical, electro-optical, and piezoelectric properties is presented. The materials under study are polymers with methacrylate backbones and oxynitrostilbene side chains. The synthesis is outlined, and pyro-electric, electro-optic, and thermal property data are reported and discussed.

Type
Research Article
Copyright
Copyright © Materials Research Society 1990

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

[1] Ulrich, D., in Nonlinear Optical Effects in Organic Polymers, ed by Messier, , Kajzar, , Prasad, and Ulrich, , klumer Academic Publishers, Dordrecht, p299, (1989).Google Scholar
[2] Buckley, A. and Stamatoff, J.B., in Nonlinear Optical Effects in Organic Polymers ed by Messier, , Kajzar, , Prasad, and Ulrich, , klumer, Academic Putbishers, Dordrecht, p327, (1989).Google Scholar
[3] Singer, K.D., Sohn, J.E., King, L.A., and Gordon, H.M.; J. Optical Soc. Am. B 6, 1339, (1989).Google Scholar
[4] Lemmon, T. and Windle, A.H., proceedings of 1989 MRS meeting symposium on Multifunctional Materials.Google Scholar
[5] Buckley, A., Demartino, R N et alia, “Organo Optics: Nonlinear Properties of Polymers”, AFOSR Contract # F49620–85–C–0047, (1986).Google Scholar
[6] Griffin, A.C., Bhatti, A.M., and Hung, R.S.L., to appear in Nonlinear Optical and Electroactive Polymers, Plenum, New York, (1989).Google Scholar
[7] Mopsik, F.I. and Broadhurst, M.G., J. of Applied Physics 46, p4204, (1975).Google Scholar
[8] Williams, D.J., in Nonlinear Optical Properties of Organic Molecules and Crystals; Chemla, D.S. and Zyss, J. ed., Academic Press, Orlando, p 405, (1987).Google Scholar
[9] Nix, E.L., Namayakhara, J., Davies, G.R., and Ward, I.M., J. Polymer Science: B: Polymer Physics 26, p 127, (1988).Google Scholar
[10] Born, M. and Wolf, E., Principals of Optics, Pergamon Press, Oxford, (1988).Google Scholar
[11] Carr, P.L., Davies, G.R., and Ward, I.M. proceedings of 1989 MRS meeting symposium on Multifunctional Materials.Google Scholar
[12] Singer, K.D., Lalama, S.L., Sohn, J.E., and Small, R.D., in Nonlinear Optical Properties of Organic Molecules and Crystals; Chemla, D.S. and Zyss, J. ed., Academic Press, Orlando, p 437, (1987).Google Scholar
[13] Haas, D., Yoon, H., Man, H.T., Gross, G., Mann, S., and Parsons, N., Proceedings of the SPIE symposium on Organic Non linear Optical Materials, San Diego, August 1989.Google Scholar
[14] Teng, C., Molecular Optics: Disperison of the Nonlinear Second Order Optical Susceptibilty, University Microfilms, (1983).Google Scholar
[15] Jerphagnon, J., Kurtz, S.K.; J. of Applied Physics, vol 41, number 4, p 1667–811970).Google Scholar
[16] Singer, K.D., Sohn, J.E., Lalama, S.J.; Applied Physics Letters 49 p 248–50 (1986).Google Scholar
[17] Brandrup, J. and Immergut, E.H. ed., Polymer Handbook 2nd edition, Wiley, New York (1975).Google Scholar