Electron Beam Modified Organic Materials and Their Applications

Nishant Chaudhary; Ajay Singh; A. K. Debnath; S. Acharya; D. K. Aswal

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Electron Beam Modified Organic Materials and Their Applications

机译：电子束改性有机材料及其应用

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The interaction of electron-beam with organic materials (e.g. Polymers, organic solvents, organic acids etc.) is known to modify their physico-chemical properties and, in many cases, these electron-beam modified materials are used for variety of societal applications. In this review article, we first describe the various types of accelerators to generate electron-beams of different energies, i.e. low (0.3 - 0.75 MeV), medium (0.75- 5 MeV) and high (5 - 10 MeV) energies,and emphasis is laid on various accelerators developed by Bhabha Atomic Research Center (BARC), Trombay, India. The energetic electrons on interaction with organic materials create free radicals that lead to modifications in material through various mechanisms such as, cross-linking, scissioning, curing and grafting. An overview of these mechanisms is presented by citing appropriate examples. Applications of electron beam-modified organic materials in different areas including bio-medical, textile, environment protection, electrical, radiation dosimetry, etc. are reviewed. The prospects and challenges involved in the electron-beam processing of organic materials are presented.

机译：已知电子束与有机材料（例如聚合物，有机溶剂，有机酸等）的相互作用会改变其理化性质，并且在许多情况下，这些电子束改性的材料可用于多种社会应用。在这篇综述文章中，我们首先描述各种类型的加速器，以产生不同能量的电子束，即低（0.3-0.75 MeV），中（0.75-5 MeV）和高（5-10 MeV）能量，并强调它由印度Trombay的Bhabha原子研究中心（BARC）开发的各种加速器铺设。与有机材料相互作用的高能电子会产生自由基，这些自由基会通过各种机制（例如，交联，切割，固化和接枝）对材料进行修饰。通过引用适当的示例对这些机制进行了概述。综述了电子束改性有机材料在不同领域的应用，包括生物医学，纺织，环保，电气，辐射剂量学等。介绍了有机材料电子束加工中涉及的前景和挑战。

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《Diffusion and Defect Data. Solid State Data, Part B. Solid State Phenomena》 |2015年第null期|共26页
作者
Nishant Chaudhary; Ajay Singh; A. K. Debnath; S. Acharya; D. K. Aswal;
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正文语种 eng
中图分类半导体物理学;
关键词
Organic Materials; Electron Beam Accelerator; Cross-linking; Grafting; Curing; G-values;

机译：有机材料;电子束加速器;交联;接枝;固化;G值;

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1. Electron Beam Modified Organic Materials and Their Applications [J] . Nishant Chaudhary, Ajay Singh, A. K. Debnath, Diffusion and Defect Data. Solid State Data, Part B. Solid State Phenomena . 2015,第Null期

机译：电子束改性有机材料及其应用
2. Glow‐discharge‐created electron beams: Cathode materials, electron gun designs, and technological applications [J] . Journal of Applied Physics . 1984,第3期

机译：辉光放电产生的电子束：阴极材料，电子枪设计和技术应用
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机译：氩气团簇离子束深度剖析有机/无机界面：用于生物材料，体外诊断和植入应用的溅射产量数据
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机译：强烈的脉冲电子束应用改性材料
5. Molecular beam epitaxy of novel semiconductor materials for microelectronic and optoelectronic device applications. [D] . Pei, Chengwen. 2005

机译：用于微电子和光电子器件应用的新型半导体材料的分子束外延。
6. Novel Organic Material Induced by Electron Beam Irradiation for Medical Application [O] . Adrian Barylski, Krzysztof Aniołek, Andrzej S. Swinarew, 2020

机译：电子束辐照诱导的新型有机材料在医学上的应用
7. Glow‐discharge‐created electron beams: Cathode materials, electron gun designs, and technological applications [O] . J. J. Rocca, J. D. Meyer, M. R. Farrell, 1984

机译：发光 - 放电创建的电子束：阴极材料，电子枪设计和技术应用
8. Applications of Ion Beams to Modify the Properties of Materials. [R] . Wolicki, E. A., Butler, J. W., Dunning, K. L., 1976

机译：离子束改性材料性能的应用。

Electron Beam Modified Organic Materials and Their Applications

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