Rational design of a mesoporous silica@ZIF-8 based molecularly imprinted electrochemical sensor with high sensitivity and selectivity for atropine monitoring
文献类型: 外文期刊
第一作者: Sun, Junyong
作者: Sun, Junyong;Zhang, Lijun;Liu, Xian;Zhao, Aixia;Gan, Tian;Liu, Yanming;Sun, Junyong;Zhang, Lijun;Liu, Xian;Zhao, Aixia;Gan, Tian;Liu, Yanming;Hu, Cong;Gan, Tian;Gan, Tian;Gan, Tian
作者机构:
关键词: Electrochemical sensor; Mesoporous silica nanospheres; ZIF-8; Au nanoparticles; Molecularly imprinted polymer; Atropine
期刊名称:JOURNAL OF ELECTROANALYTICAL CHEMISTRY ( 影响因子:4.598; 五年影响因子:4.277 )
ISSN: 1572-6657
年卷期: 2021 年 903 卷
页码:
收录情况: SCI
摘要: Porous materials are of great interest for sensor design, while poor conductivity and single structure hinder their electrochemical application seriously, and the development of an effective way to improve their specificity for targets is another challenge. Herein, novel flower-like core-shell mesoporous silica nanospheres@zeolitic imidazolate framework-8 (MSN@ZIF-8) hybrid electrocatalyst with hierarchical framework, enhanced porosity, tunable functionality, and excellent stability was firstly attempted. Significantly, the electronic environment and dynamics were greatly enhanced in MSN@ZIF-8, owing to the abundant faradic active sites of MSN inner cores and plentiful pores for electrolyte permeation and analytes adsorption of ZIF-8 outer shell. Thereafter, the molecularly imprinted electrochemical sensor based on MSN@ZIF-8 nanocomposites was prepared with p-aminothiophenol as functional monomer, Au nanoparticles as cross-linker, and atropine as template molecule via electropolymerization technique, which had a wide linear range, subnanomolar detection limit, and specific selectivity for atropine monitoring. Our work will inspire further studies on developing porous electrocatalysts with improved stability and performance, which is highly expected for varieties of sensor applications.
分类号:
- 相关文献
作者其他论文 更多>>
-
Bovine enhancer-regulated circSGCB acts as a ceRNA to regulate skeletal muscle development via enhancing KLF3 expression
作者:Xu, Jiawei;Wen, Yifan;Li, Xinmiao;Yang, Peng;Chen, Ningbo;Lei, Chuzhao;Chen, Hong;Huang, Yongzhen;Peng, Wei;Zhang, Jun;Zhang, Zijing;Wang, Eryao;Liu, Xian;Huang, Yongzhen
关键词:circSGCB; ceRNA mechanism; Enhancer; KLF3; Muscle development
-
Embedded ZnO nanorod in ZIF-8 as a high-efficiency core-shell structural electrocatalyst for subnanomole level sensing of diethylstilbestrol
作者:Sun, Junyong;Peng, Lijun;Peng, Xitian;Sun, Junyong;Zhang, Xin;Miao, Shuyan;Gan, Tian;Wu, Can;Wu, Can
关键词:ZnO; ZIF-8; core-shell structure; diethylstilbestrol; electrochemical sensing
-
Identification and fine mapping of qSW2 for leaf slow wilting in soybean
作者:Li, Shengyou;Wang, Changling;Yan, Chunjuan;Sun, Xugang;Zhang, Lijun;Cao, Yongqiang;Wang, Wenbin;Song, Shuhong
关键词:Drought; GWAS; Linkage mapping; Slow wilting; Soybean ( Glycine max )
-
Construction of high-quality genomes and gene catalogue for culturable microbes of sugarcane (Saccharum spp.)
作者:Wu, Liang;Lin, Haidong;Zhang, Lijun;Kiet, Ta Quang;Liu, Peng;Song, Jinkang;Duan, Yong;Hu, Chunyu;Yang, Hao;Yang, Xiping;Zhang, Lijun;Duan, Weixing
关键词:
-
Phenotypic diversity analysis of Polygala tenuifolia Willd germplasm resources in China
作者:Tian, Hongling;Wu, Changjuan;Zhang, Lijun;Guo, Shuhong;Wang, Yaoqin;Pei, Shuaishuai;Zuo, Xianqiang;Wang, Qiubao;Zhang, Qiang
关键词:Polygala tenuifolia; Phenotypic Diversity; Willd Germplasm; Parental selection; Varietal improvement
-
Comparative physiological and transcriptomic analysis of two contrasting soybean genotypes reveals complex mechanisms involved in drought avoidance
作者:Li, Shengyou;Yan, Chunjuan;Cao, Yongqiang;Wang, Changling;Sun, Xugang;Zhang, Lijun;Wang, Wenbin;Song, Shuhong
关键词:
-
Anti-obesity effects of mulberry leaf extracts on female high-fat diet-induced obesity: Modulation of white adipose tissue, gut microbiota, and metabolic markers
作者:Zhao, Tiantian;Zhang, Lijun;Liu, Weifeng;Zhang, Yehui;Chen, Qirong;Chen, Zhang;He, Taoping;Zhao, Tiantian;Huang, Qingrong;Zeng, Xi
关键词:Mulberry leaf extraction; Obesity modulation; Adipocytes; Gut microbiota; Antioxidant effects
