Photodeposition technique for restoring holographic films of polydiacetylene

Diffractive Optics and Micro-Optics Pub Date : 1900-01-01 DOI:10.1364/domo.1998.dtud.23

H. Abdeldayem, M. S. Paley, W. Witherow, D. Frazier

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Abstract

Polydiacetylenes are a very promising class of polymers for both photonic and electronic applications1-3 because of their highly conjugated structures. We, recently, have discovered the possibility of depositing a permanent holographic grating of information, made of polydiacetylene on a glass substrate. A novel technique for obtaining high quality thin films of a polydiacetylene derivative of 2-methyl-4-nitroaniline (PDAMNA) using photodeposition from monomer solutions onto UV transparent substrates was discovered by members of our group a few years back4. This compound was one of several asymmetric diacetylenes that were first studied extensively for their optical and electronic properties by Garito and co-workers in the late 1970s; however, their investigations did not include behavior in solutions5,6. PDAMNA films can be obtained readily from solutions of DAMNA in 1,2-dichloroethane by irradiation with UV light through a quartz or glass window, which serves as the substrate. This simple straightforward process yields transparent films with thickness on the order of 1μm7. To obtain PDAMNA thin films, a solution of DAMNA in 1,2-dichloroethane is placed inside a chamber shown in figure 1. DAMNA monomer strong absorption at 366nm. A hand-held 15W UV lamp placed directly in front of the substrate ( approximate radiation intensity of 800 μW/cm2 at 6 in.), a film of approximately 0.6 μm thickness is obtained after 24 hours of exposure.

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光沉积技术修复聚二乙炔全息膜

聚二乙炔由于其高度共轭的结构，在光子和电子领域都是非常有前途的一类聚合物。最近，我们发现了在玻璃基板上沉积聚二乙炔制成的永久全息信息光栅的可能性。几年前，本课题组的成员发现了一种利用单体溶液在紫外透明衬底上光沉积获得高质量2-甲基-4-硝基苯胺聚二乙炔衍生物(PDAMNA)薄膜的新技术。这种化合物是Garito及其同事在20世纪70年代末首先对其光学和电子特性进行广泛研究的几种不对称二乙炔之一;然而，他们的研究并不包括溶液中的行为5,6。用紫外光通过作为衬底的石英或玻璃窗照射，可以很容易地从1,2-二氯乙烷中的DAMNA溶液中获得PDAMNA薄膜。这种简单直接的工艺可以产生厚度为1μm7的透明薄膜。为了获得PDAMNA薄膜，将含有1,2-二氯乙烷的DAMNA溶液置于如图1所示的腔室中。DAMNA单体在366nm处强吸收。将15W手持式紫外灯直接置于衬底前(6英寸处辐射强度约为800 μW/cm2)，照射24小时后可得到厚度约0.6 μm的薄膜。

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$Diffractive Optics and Micro-Optics$

Diffractive Optics and Micro-Optics

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