RECENT PROGRESS IN POLYDIACETYLENE MATERIAL RESEARCH FOR NONLINEAR OPTICS

International Journal of Nonlinear Optical Physics Pub Date : 1994-10-01 DOI:10.1142/S0218199194000298

S. Okada, H. Nakanishi

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引用次数: 2

Abstract

In order to enhance the third-order nonlinear optical susceptibilities (χ(3)s) of polydiacetylenes, polydiacetylenes with π-conjugation between polymer backbone and acetylenic substituents were synthesized. In the case of hexatriyne monomer, solid-state polymerization proceeded via 1, 4-addition to give polydiacetylene with directly bound ethynyl substituents. Also 1, 4-addition polymerization took place in the case of octatetrayne and dodecahexayne monomers and gave polydiacetylenes with butadiynyl and octatetraynyl substituents, respectively. These butadiynyl and octatetraynyl moieties of the latter two polymers could thermally be polymerized furthermore. Especially, in the case of dodecahexayne, formation of an interesting ladder polymer with π-conjugation between two polydiacetylene backbones were confirmed by the solid-state NMR. The effective χ(3)(−3ω; ω, ω, ω) value in three-photon resonant region of the π-conjugation system of polydiacetylenes with butadiynyl substituents was elucidated to be about 10−9 esu. The ratio of χ(3) to absorption at the THG wavelength in near-resonant region was found to be larger than that in resonant region. Aiming at obtaining sharp excitonic absorption of polydiacetylenes, polydiacetylene microcrystals with controlled molecular weight distribution, i.e., uniform electronic structure in the polymer backbones, were also examined.

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非线性光学用聚二乙炔材料研究进展

为了提高聚二乙炔的三阶非线性光学磁化率(χ(3)s)，合成了聚合物主链与乙炔取代基之间π共轭的聚二乙炔。在六己烷单体的情况下，通过1,4加成进行固态聚合，得到直接结合乙基取代基的聚二乙炔。对辛四炔和十二己炔单体也进行了1,4加成聚合，分别得到了丁二炔和辛四炔取代基的聚二乙炔。后两种聚合物的丁二基和辛四基部分可以进一步热聚合。特别是在十二己烷的情况下，固体核磁共振证实了在两个聚二乙炔骨架之间形成了一个有趣的π共轭梯形聚合物。有效χ(3)(−3ω;以丁二炔为取代基的聚二乙炔π共轭体系的三光子共振区ω， ω， ω)值约为10−9 esu。近共振区THG波长处的χ(3)与吸收的比值大于谐振区。为了获得聚二乙炔的尖锐激子吸收，还研究了分子量分布可控的聚二乙炔微晶，即聚合物骨架中的均匀电子结构。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Journal of Nonlinear Optical Physics

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