Anion Exchange Membrane Functionalized by Phenol-formaldehyde Resins: Functional Group, Morphology, and Absorption Analysis

Pragya Darshan प्रज्ञा दर्शन Pub Date : 2023-11-02 DOI:10.3126/pdmdj.v5i2.59612

D. Parajuli, N. Murali, K. Samatha, N. L. Sahu, B. R. Sharma

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Abstract

We have developed a straightforward and uncomplicated technique for creating alkaline exchange membranes (AEMs) that possess both high alkaline durability and improved ionic conductivity. This method provides an appealing alternative to conventional approaches, notably by eliminating the need for the use of the carcinogenic reagent chloromethyl methyl ether, typically employed in AEM preparation. Examination of the membranes via scanning electron microscopy (SEM) reveals a consistently smooth surface. Augmenting the ion-exchange material's weight percentage in the casting solution results in enhanced water content, ion exchange capacity, and electrical conductivity. Importantly, our approach entirely circumvents the use of the hazardous chloromethy l methyl ether reagent, commonly associated with AEM preparation. TGA for thermal stability and chemical stability, conductivity with impedance data, and electrochemical tests are going on. The outcomes of this study present an appealing alternative to traditional methods for AEM synthesis.

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酚醛树脂功能化阴离子交换膜:官能团、形态和吸收分析

我们已经开发了一种简单而简单的技术来制造碱性交换膜(AEMs)，它具有高碱性耐久性和改善的离子电导率。该方法为传统方法提供了一种有吸引力的替代方法，特别是通过消除使用致癌试剂氯甲基甲醚的需要，这种试剂通常用于AEM制备。通过扫描电子显微镜(SEM)检查膜显示一致光滑的表面。增加离子交换材料在铸造溶液中的重量百分比，可以提高水含量、离子交换能力和导电性。重要的是，我们的方法完全避免了使用有害的氯甲基醚试剂，通常与AEM制备相关。热稳定性和化学稳定性的热重分析仪，电导率与阻抗的数据，以及电化学测试正在进行中。本研究的结果为AEM合成的传统方法提供了一个有吸引力的替代方案。

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Pragya Darshan प्रज्ञा दर्शन

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