A molecularly imprinted polymer synthesized using beta-cyclodextrin as the monomer for the efficient recognition of forchlorfenuron in fruits

文献类型: 外文期刊

第一作者: Cheng, Yang

作者: Cheng, Yang;Nie, Jiyun;Li, Zhixia;Yan, Zhen;Xu, Guofeng;Li, Haifei;Guan, Dikai

作者机构:

关键词: Molecularlyimprintedpolymer;beta-Cyclodextrin;Forchlorfenuron;Selectivity;Inclusion complex

期刊名称:ANALYTICAL AND BIOANALYTICAL CHEMISTRY ( 影响因子:4.142; 五年影响因子:3.863 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: In this study, we have successfully synthesized a forchlorfenuron (CPPU)-imprinted polymer in dimethyl sulfoxide by molecular imprinting technique. In the molecular imprinting, beta-cyclodextrin was used as the monomer with 1,6-hexamethylene diisocyanate (HMDI) as the cross-linking agent that formed a complex with forchlorfenuron by inclusion interactions. The adsorption equilibrium was attained in approximately 30 min and the maximum binding capacity was 26.79 mg/g, which indicated that the adsorption kinetics was relatively fast. The results of adsorption and selectivity experiments have shown that the imprinted polymer was able to bind forchlorfenuron specifically and reversibly. The specific recognition of the imprinted polymer for forchlorfenuron resulted from the cooperative effects of inclusion interaction and hydrophobic interaction. This imprinted polymer was also used to accurately determine forchlorfenuron residue in real fruit samples. In the standard spiked strawberry sample, the adsorption recoveries for forchlorfenuron were as high as 90.3, 84.5, and 90.8%, respectively. The binding specificity of the imprinted polymer for forchlorfenuron resulted from the imprinting effect. Therefore, as a reusable material possessing high affinity and selectivity, the imprinted polymer is promising in application to detect pesticide residues in fruit samples. In addition, because beta-cyclodextrin is water soluble and can include neutral compounds, this molecularly imprinted polymer can be used to recognize pesticides in aqueous solutions.

分类号: O65

  • 相关文献

[1]Study on inclusion complexation between plant growth regulator 6-benzylaminopurine and beta-cyclodextrin: Preparation, characterization and molecular modeling. Ge, Xia,He, Jiang,Yang, Ying,Qi, Fengming,Lu, Ruihua,Huang, Lizhen,Yao, Xiaojun,Huang, Zheng. 2011

[2]Inclusion complexation of chloropropham with beta-cyclodextrin: Preparation, characterization and molecular modeling. Ge, Xia,He, Jiang,Qi, Fengming,Yang, Ying,Lu, Ruihua,Huang, Lizhen,Ge, Xia,Huang, Zheng. 2011

[3]Inclusion Interaction of Pyrimorph with beta-Cyclodextrin. Wang Jian,Liu Ji-Ping,Wang Ming-An,Qin Zhao-Hai,Yuan Hui-Zhu. 2009

[4]Optimization of polymerization parameters for the sorption of oseltamivir onto molecularly imprinted polymers. Yang, Yajun,Li, Jianyong,Liu, Yurong,Zhang, Jiyu,Li, Bing,Cai, Xuepeng.

[5]A high selective immunochromatographic assay for rapid detection of aflatoxin B-1. Zhang, Daohong,Li, Peiwu,Zhang, Qi,Zhang, Wen,Xiao, Zhi,Ding, Xiaoxia,Zhang, Daohong,Li, Peiwu,Zhang, Wen,Xiao, Zhi,Ding, Xiaoxia,Zhang, Daohong,Li, Peiwu,Xiao, Zhi,Yang, Yang. 2011

[6]Gillnet Selectivity on the Small Yellow Croaker Larimichthys polyactis in the Southern Yellow Sea. Xiong, Ying,Jian, Yang,Xiong, Ying,Zhong, Xiaming,Tang, Jianhua,Jian, Yang,Li, Lingzhi. 2017

[7]Susceptibility and selectivity of cnaphalocrocis medinalis (Lepidoptera: Pyralidae) to different cry toxins. Yang, Yajun,Xu, Hongxing,Zheng, Xusong,Lu, Zhongxian.

[8]Selective actions of Lynx proteins on different nicotinic acetylcholine receptors in the locust, Locusta migratoria manilensis. Wang, Xin,Bao, Haibo,Sun, Huahua,Zhang, Yixi,Liu, Qinghong,Liu, Zewen,Bao, Haibo,Fang, Jichao.

[9]Identification and releasing characteristics of beta-cyclodextrin-phenylethanoid glycosides inclusion complex. Sheng, Zhixuan,Tian, Yaoqi,Hu, Xiuting,Jin, Zhengyu,Xu, Xueming,Cheng, Anwei. 2014

[10]A simple and sensitive electrochemical sensor for new neonicotinoid insecticide Paichongding in grain samples based on beta-cyclodextrin-graphene modified glassy carbon electrode. Zhang, M.,Zhao, H. T.,Yang, X.,Dong, A. J.,Zhang, H.,Wang, J.,Liu, G. Y.,Zhai, X. C.,Zhang, M.,Wang, J..

[11]A study of fluorescence properties of citrinin in beta-cyclodextrin aqueous solution and different solvents. Chen, Jianbiao,Dong, Lina,Lu, Liang,Chen, Fusheng,Wang, Xiaohong,Zhou, Youxiang,Hu, Dingjin,Chen, Fusheng,Wang, Xiaohong,Chen, Fusheng. 2012

[12]Structural characterization of inclusion complex of arbutin and hydroxypropyl-beta-cyclodextrin. Li, Yun,Li, Fang,Cai, Hongyan,Chen, Xuan,Sun, Wei,Shen, Wangyang,Li, Fang,Shen, Wangyang. 2016

[13]Structural characterization and bioavailability of ternary nanoparticles consisting of amylose, alpha-linoleic acid and beta-lactoglobulin complexed with naringin. Feng, Tao,Wang, Ke,Liu, Fangfang,Ye, Ran,Zhu, Xiao,Zhuang, Haining,Xue, Zhimin.

[14]Structural Characterization of Inclusion Complex of Hesperidin Methyl Chalcone and Hydroxypropyl-beta-cyclodextrin. Li, Yun,Li, Fang,Sun, Wei,Chen, Xuan,Shen, Wangyang,Li, Fang,Shen, Wangyang.

[15]Inclusion of quinestrol and 2,6-di-O-methyl-beta-cyclodextrin: Preparation, characterization, and inclusion mode. Ouyang, Can-Bin,Liu, Xiao-Hui,Liu, Qi,Yuan, Hao-Liang. 2013

[16]The Preparation, Characterization and Ultraviolet Photodegradation of LNG-HP-beta-CD. Wang Da-wei,Liu Xiao-hui,Wang Da-wei,Liu Ming,Liu Qi,Liu Qi. 2011

[17]Complexation of chlorpropham with hydroxypropyl-beta-cyclodextrin and its application in potato sprout inhibition. Huang, Zheng,Tian, Shilong,Ge, Xia,Zhang, Jun,Li, Shouqiang,Li, Mei,Cheng, Jianxin,Zheng, Huaiwen. 2014

[18]Complexation of carbendazim with hydroxypropyl-beta-cyclodextrin to improve solubility and fungicidal activity. Ge, Xia,Huang, Zheng,Tian, Shilong,Huang, Yulong,Zeng, Chaozhen. 2012

[19]Cytotoxicity and inhibition of lipid peroxidation activity of resveratrol/cyclodextrin inclusion complexes. Lu, Zhong,Chen, Rong,Xiong, Jinyan,Hu, Yeli,Fu, Ruiguan.

作者其他论文 更多>>

微信小程序