Detection of Carbamate Pesticides based on MWNTs-chitosan Modified Carbon Nanotube Electrode Biosensor with Immobilized Acetylcholinesterase

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Scientific Journal of Frontier Chemical Development

Scientific Journal of Frontier Chemical Development (SJFCD) is an international open access journal, concerning about the latest research results of chemistry. The goal of the journal is to provide a global forum for scholars, researchers and managers in this field, to exchange ideas and promote the development of theories and technologies in chemistry and chemical fields.The journal receives manuscripts written in Chinese or English.... [More] Scientific Journal of Frontier Chemical Development (SJFCD) is an international open access journal, concerning about the latest research results of chemistry. The goal of the journal is to provide a global forum for scholars, researchers and managers in this field, to exchange ideas and promote the development of theories and technologies in chemistry and chemical fields.

The journal receives manuscripts written in Chinese or English. As for Chinese papers, the following items in English are indispensible parts of the paper: paper title, author(s), author(s)'affiliation(s),abstract and keywords. If this is the first time you contribute an article to the journal, please format your manuscript as per the sample paper and then submit it into the online submission system. Accepted papers will immediately appear online followed by printed hard copies by Ivy Publisher globally. Therefore, the contributions should not be related to secret. The author takes sole responsibility for his views.

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Paper Infomation

Detection of Carbamate Pesticides based on MWNTs-chitosan Modified Carbon Nanotube Electrode Biosensor with Immobilized Acetylcholinesterase

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Author: Xingkai Ye, Shuping Zhang

Abstract: A stable and highly sensitive enzyme biosensor based on MWNTs-chitosan modified glassy carbon electrode (GCE) with efficient immobilization of acetylcholinesterase (AChE) has been devised for rapid determination of carbamate pesticides especially methomyl, aldicarb, carbaryl and fenobucarb. AChE was immobilized via layer-by-layer self-assembly modification technique. The study indicated that the inhibition of carbamate pesticides on the AChE activity was proportional to concentration of carbamate pesticides in the 10-10 g·L-1 to 10-3 g·L-1 concentration range and the limitation of detecting methomyl is up to 10-12 g·L-1 and others is 10-11 g∙L-1. So the enzyme biosensor may be an alternative new tool for analyzing pesticide remains in environment or food.

Keywords: Enzyme Biosensor; AChE; LBL; CS; Carbamate Pesticides; Methomyl

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