呋喃唑酮
纳米纤维素
分析物
安培法
碳纳米管
材料科学
纳米复合材料
吸附
纳米技术
电化学气体传感器
检出限
超声
电化学
色谱法
Nafion公司
复合数
生物传感器
化学工程
伏安法
食品工业
碳糊电极
化学
食品
纳米颗粒
电极
作者
K. J. Abhishek,Sathish Reddy,B.E. Kumara Swamy,M. Praveen,B. S. Malashri,H. B. Muralidhara
标识
DOI:10.1021/acsanm.5c03653
摘要
The misuse of antibiotics such as furazolidone (FZ) and chloramphenicol (CP) in the food industry poses serious health risks, highlighting the need for rapid and sensitive detection strategies. Here, we report a hybrid nanocomposite electrode composed of zirconium-based metal–organic frameworks (Zr-MOFs), carbon nanotubes (CNTs), and nanocellulose for the simultaneous electrochemical detection of CP and FZ. In this design, Zr-MOF provides abundant electroactive sites, CNTs enhance conductivity, and nanocellulose improves analyte adsorption through its rich surface functionalities. The synergistic integration enables independent and distinguishable redox responses for CP and FZ, allowing reliable dual-analyte monitoring. Optimization of the composite via component ratio and sonication temperature resulted in superior electrocatalytic performance. The Zr-MOF/CNT/nanocellulose sensor achieved ultralow detection limits of 3.4 nM (CP) and 8.2 nM (FZ), with excellent sensitivity, reproducibility, and stability. Furthermore, successful recovery studies in real food matrices, including milk, honey, and pharmaceutical tablets, demonstrates its practical applicability. This work introduces a multifunctional hybrid sensing platform that advances electrochemical monitoring of antibiotic residues for food safety applications.
科研通智能强力驱动
Strongly Powered by AbleSci AI