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Synthetic Metals
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Photoconduction and photorefraction in molecularly doped polymers

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Abstract

During the past 20 years organic photoconductors have found increasing application in electrophotographic copying and printing. Charge carrier mobility in these materials is achieved by doping a polymer matrix with up to 50% by weight of a molecular donor (acceptor) which provides sites for the hopping of holes (electrons). Sensitization to the desired wavelength of light is obtained via a suitable charge generation dye or pigment, frequently in the form of a second layer distinct from the transport layer. More recently, optically nonlinear polymers have been synthesized by the incorporation of conjugated donor-acceptor species into macromolecular chains and/or networks. When the donor-acceptor chromophores are aligned, for example, by poling in an electric field, second-order optical nonlinearity, including an electro-optic effect, is observed. Photoconductivity and nonlinearity can be combined for example, by doping a nonlinear polymer with a molecular charge transport agent, to yield a potentially photorefractive material. The photorefractive effect in several such formulations has been confirmed and characterized by a combination of absorption, photoconductivity, mobility, electro-optic, four-wave mixing (holography) and grating phase measurements. The results are discussed in terms of a mechanism involving (i) charge generation on the nonlinear chromophore, (ii) transport of holes by hoping among molecular donor sites, (iii) charge trapping to develop a space-charge electric field and (iv) modulation of the refractive index via the electro-optic effect. © 1993.

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Synthetic Metals

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