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New Nonlinear Optically Active Polymers Containing Hydrazone Chromophores

Published online by Cambridge University Press:  21 February 2011

M. N. Mang ,
S. E. Bales ,
D. J. Brennan ,
M. A. Chartier ,
R. J. Gulotty ,
A. P. Haag ,
M. N. Inbasekaran ,
C. A. Langhoff  and
M. D. Newsham
M. N. Mang
Affiliation:
The Dow Chemical Company, Central Research and Development Laboratories, Midland, MI 48674
S. E. Bales
Affiliation:
The Dow Chemical Company, Central Research and Development Laboratories, Midland, MI 48674
D. J. Brennan
Affiliation:
The Dow Chemical Company, Central Research and Development Laboratories, Midland, MI 48674
M. A. Chartier
Affiliation:
The Dow Chemical Company, Central Research and Development Laboratories, Midland, MI 48674
R. J. Gulotty
Affiliation:
The Dow Chemical Company, Central Research and Development Laboratories, Midland, MI 48674
A. P. Haag
Affiliation:
The Dow Chemical Company, Central Research and Development Laboratories, Midland, MI 48674
M. N. Inbasekaran
Affiliation:
The Dow Chemical Company, Central Research and Development Laboratories, Midland, MI 48674
C. A. Langhoff
Affiliation:
The Dow Chemical Company, Central Research and Development Laboratories, Midland, MI 48674
M. D. Newsham
Affiliation:
The Dow Chemical Company, Central Research and Development Laboratories, Midland, MI 48674
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Abstract

A family of new polymeric nonlinear optical materials with high second order non-linearities, good thermo-oxidative and reorientational stability, and low waveguide losses have been prepared from a series of chromophores containing hydrazone moieties. These new polymerizable chromophores can be readily prepared by the acid-catalyzed condensation of substituted arylhydrazines with functionalized ketones or aldehydes to give molecules that have μ3 values up to 2440 × 10−48 esu (1579 nm) in solution. Thermoplastic polycarbonates and poly(hydroxy ethers) containing hydrazone chromophores have been prepared with Tg's ranging from 135 °C to 285 °C. Epoxy systems crosslinked with amino-functional arylhydrazones, have high d33 values and high glass transition temperatures, albeit with lower relative thermo-oxidative stability. Simple Mach-Zehnder modulators and registered multi-level structures based on these polymers have been reported previously. One device, prepared from a hydrazone-containing poly(hydroxy ether), has an r33 value of 10 pm/V (1320 nm), and retains most of that activity to 140 °C.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 392: Symposium U – Thin Films for Integrated Optics Applications , 1995 , 53
Copyright
Copyright © Materials Research Society 1995

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References

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