壳聚糖功能化埃洛石纳米管作为漆酶和铜的接受表面，用于在水环境中降解毒死蜱。

Chitosan functionalized Halloysite Nanotubes as a receptive surface for laccase and copper to perform degradation of chlorpyrifos in aqueous environment.

作者信息

Tharmavaram Maithri, Pandey Gaurav, Bhatt Payal, Prajapati Prajesh, Rawtani Deepak, Sooraj K P, Ranjan Mukesh

机构信息

School of Doctoral Studies & Research, National Forensic Sciences University (Ministry of Home Affairs), sector 9, Gandhinagar 382007, Gujarat, India.

School of Pharmacy, National Forensic Sciences University (Ministry of Home Affairs), sector 9, Gandhinagar 382007, Gujarat, India.

出版信息

Int J Biol Macromol. 2021 Nov 30;191:1046-1055. doi: 10.1016/j.ijbiomac.2021.09.098. Epub 2021 Oct 1.

DOI:10.1016/j.ijbiomac.2021.09.098

PMID:34600951

Abstract

Chitosan (CTS) functionalized Halloysite Nanotubes (HNT) have been used as receptive nano-supports for the grafting of copper (Cu) and laccase (Lac) for the degradation of chlorpyrifos. The developed nanocomposite Lac@Cu-CTS-HNT showed 83.4% Lac immobilization which was further characterized by TEM, SEM-EDX, FTIR, XRD, DSC and TGA. The chlorpyrifos degradation studies were performed under constant stirring for 24 h with both free enzyme and Lac@Cu-CTS-HNT and were analysed through HPLC. Percentage degradation of chlorpyrifos with the nanocomposite went as high as 97% for 50 μg/mL chlorpyrifos at neutral pH and room temperature. Variable pesticide and nanocomposite concentration, pH, and temperature studies for pesticide degradation were also performed, followed by reusability studies. The nanocomposite maintained its degradation ability at ~~97% even at variable temperature and pH conditions. Reusability study was performed 5 times wherein the degradation percentage remained the same after 5 cycles (~~<95%). Degradation kinetics were also performed for the nanocomposite in the presence and absence of the immobilized enzyme. Through this study, it is suggested that Lac@Cu-CTS-HNT can be a potential nano-catalyst for the degradation of chlorpyrifos in aqueous environment.

摘要

壳聚糖（CTS）功能化的埃洛石纳米管（HNT）已被用作接枝铜（Cu）和漆酶（Lac）的受体纳米载体，用于毒死蜱的降解。所制备的纳米复合材料Lac@Cu-CTS-HNT显示出83.4%的漆酶固定化率，并通过透射电子显微镜（TEM）、扫描电子显微镜-能谱仪（SEM-EDX）、傅里叶变换红外光谱（FTIR）、X射线衍射（XRD）、差示扫描量热法（DSC）和热重分析法（TGA）进行了进一步表征。在自由酶和Lac@Cu-CTS-HNT存在下，在持续搅拌24小时的条件下进行了毒死蜱降解研究，并通过高效液相色谱（HPLC）进行了分析。在中性pH值和室温下，对于50μg/mL的毒死蜱，纳米复合材料对其降解率高达97%。还进行了农药和纳米复合材料浓度、pH值以及温度对农药降解影响的研究，随后进行了重复使用性研究。即使在不同的温度和pH条件下，该纳米复合材料仍能保持其约97%的降解能力。进行了5次重复使用性研究，5个循环后降解率保持不变（约<95%）。还对固定化酶存在和不存在的情况下纳米复合材料的降解动力学进行了研究。通过这项研究表明，Lac@Cu-CTS-HNT可能是水环境中毒死蜱降解的潜在纳米催化剂。

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壳聚糖功能化埃洛石纳米管作为漆酶和铜的接受表面，用于在水环境中降解毒死蜱。

Chitosan functionalized Halloysite Nanotubes as a receptive surface for laccase and copper to perform degradation of chlorpyrifos in aqueous environment.

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