通过伽马辐照改变杂化聚合物纳米复合材料的热学和电学特性,使其应用于先进领域。

0 MATERIALS SCIENCE, MULTIDISCIPLINARY Discover nano Pub Date : 2024-02-22 DOI:10.1186/s11671-024-03972-3
C M Kavitha, K M Eshwarappa, Shivakumar Jagadish Shetty, S C Gurumurthy, Srivathsava Surabhi, T Niranjana Prabhu, Jong-Ryul Jeong, D V Morales
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摘要

在本文中,我们介绍了一种直接的原位方法,用于在氧化石墨烯(GO)与戊二醛(GA)交联的聚乙烯醇(PVA)基质中生产银纳米粒子。用 2、5 和 10 kGy 的剂量对样品进行 γ 辐照,与原始薄膜相比,测量热导率("k")和辐射率。在 5 kGy 以下,"k "随辐照剂量的增加而减小,而剂量的进一步增加会导致 "k "的增大。我们进行了 FDTD 建模,以验证极化和周期性对吸收率和发射率光谱的影响。因此,我们可以认为制备的混合纳米复合材料的结构特性受γ-辐照的影响。这证明 PVA/GO-Ag/GA 纳米复合材料对辐射敏感,可用于热管理系统。此外,γ 辐照样品的直流电导率在 2.66 × 10-8-4.319 × 10-7 Sm-1 之间,低于 1.0 × 10-6 Sm-1 的渗流阈值,这表明它们具有很强的电绝缘性,是热管理材料的理想候选材料。由于 "k "值较低,我们可以将这种前景广阔的材料用作微传感器和微系统中的隔热基板。由于其优异的电绝缘性,它们也是核反应堆中用作电线电缆绝缘材料的绝佳选择。
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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Modification of thermal and electrical characteristics of hybrid polymer nanocomposites through gamma irradiation for advanced applications.

In this article, we present a straightforward in-situ approach for producing Ag NPs incorporated in graphene oxide (GO) blended with glutaraldehyde (GA) cross-linked polyvinyl alcohol (PVA) matrix. Samples are γ-irradiated by doses of 2, 5, and 10 kGy and in comparison with the pristine films, the thermal conductivity ('k') and effusivity are measured. 'k' decreases with irradiation doses up to 5 kGy and further increase in the dosage results increase in 'k'. We performed FDTD modeling to verify the effect of polarization and periodicity on the absorptivity and emissivity spectra that are correlated to the 'k' and effusivity, empirically. Hence, we can confess that the structural properties of the prepared hybrid nanocomposite are manipulated by γ-irradiation. This attests that the PVA/GO-Ag/GA nanocomposite is radiation-sensitive and could be employed for thermal management systems. Moreover, their strong electrical insulation, as the measured dc conductivity of the γ-irradiated samples is found to be in the range of 2.66 × 10-8-4.319 × 10-7 Sm-1, which is below the percolation threshold of 1.0 × 10-6 Sm-1, demonstrates that they are excellent candidates for the use of thermal management materials. The low 'k' values allow us to use this promising material as thermal insulating substrates in microsensors and microsystems. They are also great choices for usage as wire and cable insulation in nuclear reactors due to their superior electrical insulation.

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