化学
吸附剂
萃取(化学)
吸附
检出限
离子液体
色谱法
蚀刻(微加工)
离子键合
分析物
离子
离子强度
化学工程
锂(药物)
微量
极地的
表面改性
图层(电子)
化学极性
静电学
毛细管作用
分析化学(期刊)
纳米技术
磁选
作者
Jing Zhou,Hui Chen,Qidong Yu,Xiaotong Peng,Lili Chen,Qi Yu,Shufen Zhang,Tao Liu,H. Luo,Limin Lu,Lizhi Liu,L Zhang
标识
DOI:10.1021/acs.analchem.5c06923
摘要
Magnetic solid-phase extraction (MSPE) often suffers from significant efficiency loss in high-ionic-strength matrices, where abundant salt ions compress the electrical double layer and compete for adsorption sites, leading to an unstable extraction performance. Here, we report an ion-interference-resistant MSPE strategy that integrates a rationally engineered carbon-based sorbent with an analytical concept of ionic regulation. The sorbent incorporates nitrogen dopants and oxygen vacancy functionalities that act as controllable ion-buffering centers, selectively immobilizing Na+ and Cl- ions to stabilize the interfacial electrostatic environment. Meanwhile, a hydroxyl-enriched surface layer facilitates hydrogen bonding and π-π interactions, ensuring the efficient and selective adsorption of polar analytes such as aflatoxin B1 (AFB1). This hierarchical architecture effectively decouples ionic adsorption from target binding, maintaining robust electrostatic microenvironments under saline conditions. The optimized MSPE system retained over 90% of its efficiency at 0.1 mol/L NaCl─approximately a 4-fold improvement in salt tolerance relative to conventional magnetic carbons. When applied to trace detection of AFB1 in high-salinity food samples (oyster sauce, fermented cheese, and doubanjiang), the method achieved recoveries of 99.7%-108.2% and a detection limit of 16.0 pg/g, far outperforming commercial HPLC sorbents. This work establishes a general methodological framework for ionic regulation in MSPE, offering a robust and practical solution for trace analysis in complex high-salinity matrices.
科研通智能强力驱动
Strongly Powered by AbleSci AI