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Effect of Chromophore Architecture and Deposition Conditions on the Optical and Microstructual Characteristics of Self-Assembled Chromophoric NLO materials

Citation:

Yitzchaik, S. ; Kakkar, A. K. ; Roscoe, S. B. ; Orrihashi, Y. ; Marks, T. J. ; Lin, W. ; Wong, G. K. Effect of Chromophore Architecture and Deposition Conditions on the Optical and Microstructual Characteristics of Self-Assembled Chromophoric NLO materials. Molecular Crystals and Liquid Crystals Science and Technology. Section A. 1994, 240, 9-16.

Abstract:

Construction on inorganic oxide substrates of covalently self-assembled second-order nonlinear optical (NLO) materials containing a variety of acentrically organized high-β chromophores is investigated as a function of film deposition conditions. Structurally different chromophores exhibit varying packing arrangements on the surface. Changing the medium for the chromophorc deposition reaction on functionalized surfaces from a polar solvent to a nonpolar solvent and raising the temperature increases the chromophore number density on the surface and yields improved NLO response. These robust thin film materials show very high second harmonic generation (SHG) efficiencies with X (2) zzz for ∼ 25 Å thick monolayers of up to 7 × 10−7 esu at 1064 nm.

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Last updated on 04/21/2016