Holographic recording characteristics and physical mechanism of zinc methacrylate/nitroaniline-co-doped poly(methyl methacrylate)/9, ... article from: Polymer Engineering and Science
Book Details
PublisherSociety of Plastics Engineers, Inc.
ISBN / ASINB00DCMGAJS
ISBN-13978B00DCMGAJ2
MarketplaceUnited Kingdom 🇬🇧
Description
This digital document is an article from Polymer Engineering and Science, published by Society of Plastics Engineers, Inc. on June 1, 2013. The length of the article is 5030 words. The page length shown above is based on a typical 300-word page. The article is delivered in HTML format and is available immediately after purchase. You can view it with any web browser.
From the author: In this study we developed an approach to improve the characteristics of photopolymers for holographic data storage. Through codoping different compounds, N, N-dimethy1-4-nitroaniline (DMNA) and zinc methylacrylate (Zn[(MA).sub.2], into 9,10-phenanthrenequinone (PQ) doped poly(methyl methacrylate) (PMMA), the diffraction efficiency and the value of dynamic range (M#) have been progressed. We enhanced the diffraction efficiency (from 36.1 to 86.2%) and the dynamic range (M#, from 2.9 to 10.7) of PQ-doped PMMA through codoping with DMNA and Zn(MA)2. Using mass spectrometry and X-ray photoelectron spectroscopy, we investigated the mechanism behind the improvements in optical storage induced by the presence of Zn[(MA).sub.2] and DMNA in PMMA/PQ. POLYM. ENG. SCI., 53: 1297-1305, 2013. [c] 2012 Society of Plastics Engineers
Citation Details
Title: Holographic recording characteristics and physical mechanism of zinc methacrylate/nitroaniline-co-doped poly(methyl methacrylate)/9, 10-phenanthrenequinone photopolymers.(Report)
Author: Cheng-Jung Ko
Publication:Polymer Engineering and Science (Magazine/Journal)
Date: June 1, 2013
Publisher: Society of Plastics Engineers, Inc.
Volume: 53 Issue: 6 Page: 1297(9)
Article Type: Report
Distributed by Gale, a part of Cengage Learning
From the author: In this study we developed an approach to improve the characteristics of photopolymers for holographic data storage. Through codoping different compounds, N, N-dimethy1-4-nitroaniline (DMNA) and zinc methylacrylate (Zn[(MA).sub.2], into 9,10-phenanthrenequinone (PQ) doped poly(methyl methacrylate) (PMMA), the diffraction efficiency and the value of dynamic range (M#) have been progressed. We enhanced the diffraction efficiency (from 36.1 to 86.2%) and the dynamic range (M#, from 2.9 to 10.7) of PQ-doped PMMA through codoping with DMNA and Zn(MA)2. Using mass spectrometry and X-ray photoelectron spectroscopy, we investigated the mechanism behind the improvements in optical storage induced by the presence of Zn[(MA).sub.2] and DMNA in PMMA/PQ. POLYM. ENG. SCI., 53: 1297-1305, 2013. [c] 2012 Society of Plastics Engineers
Citation Details
Title: Holographic recording characteristics and physical mechanism of zinc methacrylate/nitroaniline-co-doped poly(methyl methacrylate)/9, 10-phenanthrenequinone photopolymers.(Report)
Author: Cheng-Jung Ko
Publication:Polymer Engineering and Science (Magazine/Journal)
Date: June 1, 2013
Publisher: Society of Plastics Engineers, Inc.
Volume: 53 Issue: 6 Page: 1297(9)
Article Type: Report
Distributed by Gale, a part of Cengage Learning
