Photocatalytic and Antimicrobial Activities of Polyaniline Nanocomposites with Molybdates

Volume 5, Issue 2 Pub Date : 2019-06-06 DOI:10.30799/JNST.S11.19050304

S. Balamurugan, D. Sathya, S. Kalyanaraman, A. Pushparaj, R. Murugesan

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Abstract

Article history: Received 20 March 2019 Accepted 29 April 2019 Available online 04 June 2019 The present study describes the process for the formation of PANI nanocomposite incorporated with metal (Cd, Bi, Ba) molybdates of binary metal oxide. The PANI and its nanocomposites were prepared by 0.1 M aniline in 100 mL of 1 M sulphuric acid in the presence or absence of 50 mg of metal molybdate by chemical polymerization using 0.1 M APS as oxidant in 100 mL of 1 M sulphuric acid. The polymerisation yields are increased due to incorporation of metal molybdates. The growth of polymerization is also enhanced. The interaction of metal molybdates into PANI matrix leads to increase in very high conductivity, heavy interaction between the two-polymer chain lead to increase in stability of the polymer. In the incorporation of metal molybdate into the polymer matrix leads to increase in conductivity of about 5, 4 and 2 times with respect to the original sample (PANI) as in PANI-CdMoO4, PANI-BiMoO4 and PANI-BaMoO4 respectively. The incorporation of metal molybdates is confirmed by XRD and UV-VIS spectral studies. The XRD studies are also suggested the presence of chemical interaction between polymer chain and incorporated metal molybdates. The antimicrobial activity of the synthesized material PANI and PANI-nanocomposites were tested against four bacteria, Escherichia coli, Staphylococcus aureus, P. aeruginosa and Proteus vulgaris using disc diffusion method. The nanocomposite doped polymer possesses excellent antibacterial property. The results on MB dye degradation showed that PANI-SO4/CdMoO4 photocatalyst, under visible light degraded 80.2 % of MB dye after 180 min. The photo-degradation study, thus, suggests that the light absorption of PANI and catalytic role of CdMoO4 could be coupled for high photo-catalytic functionality. This work opens a new avenue for the design of new modified photo-catalysts with high activity for the large-scale water treatment and other applications.

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钼酸盐聚苯胺纳米复合材料的光催化及抗菌活性

文章历史:2019年3月20日接收2019年4月29日接受2019年6月4日在线提供2019年6月4日本研究描述了与金属(Cd, Bi, Ba)钼酸盐的二元金属氧化物结合的聚苯胺纳米复合材料的形成过程。以0.1 M苯胺为氧化剂，在100 mL 1 M硫酸中，以0.1 M APS为氧化剂，在50 mg钼酸盐存在或不存在的情况下，在100 mL 1 M硫酸中进行化学聚合，制备聚苯胺及其纳米复合材料。由于金属钼酸盐的掺入，聚合收率提高了。聚合的生长也得到了增强。金属钼酸盐与聚苯胺基体的相互作用增加了聚合物的高导电性，双聚合物链之间的相互作用增加了聚合物的稳定性。金属钼酸盐掺入聚合物基体后，其电导率比原样品(PANI)分别提高了约5倍、4倍和2倍，如PANI- cdmoo4、PANI- bimoo4和PANI- bamoo4。通过XRD和UV-VIS光谱研究证实了金属钼酸盐的掺入。XRD研究表明，聚合物链与掺入的金属钼酸盐之间存在化学相互作用。采用圆盘扩散法测定合成的聚苯胺及其纳米复合材料对大肠杆菌、金黄色葡萄球菌、铜绿假单胞菌和寻常变形杆菌的抑菌活性。纳米复合掺杂聚合物具有优异的抗菌性能。对MB染料的降解结果表明，PANI- so4 /CdMoO4光催化剂在可见光下180 min后对MB染料的降解率为80.2%。因此，光降解研究表明，PANI的光吸收和CdMoO4的催化作用可以耦合在一起，从而获得较高的光催化功能。本研究为设计新型改性高活性光催化剂用于大规模水处理及其他应用开辟了新的途径。

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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Volume 5, Issue 2

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