分子印迹聚合物
聚合物
材料科学
点击化学
分子识别
化学
纤维
沉淀聚合
纳米技术
肌钙蛋白复合物
光纤
分子印迹
生物传感器
纳米颗粒
聚合
光致聚合物
涂层
动态光散射
光接枝
自愈水凝胶
荧光
肌钙蛋白T
作者
Claudia Herrera‐León,Ernesto III Paruli,Constance Thomas,Noel Angelo Kalacas,Alessia Di Fiore,Grisel P. Villezcas,Alejandra Mier,Rodrigue Marquant,Irene Maffucci,Olivier Soppera,Carlo Gonzato,Bernadette Tse Sum Bui,Karsten Haupt
出处
期刊:Polymer
[Elsevier BV]
日期:2025-11-29
卷期号:343: 129423-129423
被引量:1
标识
DOI:10.1016/j.polymer.2025.129423
摘要
Molecularly imprinted polymer nanogels (MIP-NGs) prepared by solid-phase synthesis are attractive as recognition elements in sensors as they offer the advantages of having surface-exposed binding sites, favoring rapid binding kinetics and fast response. On the other hand, transducers like optical fibers meet the needs of contemporary analysis and detection due to their ease of miniaturization, portability and implementation in remote areas. Generally, chemical grafting as opposed to physical coating of the MIP-NGs on the optical fibers is recommended, to ensure sensor stability. To this end, we developed a novel immobilization protocol introducing azido moieties onto polymer microstructures fabricated at the end of a standard telecommunication optical fiber, enabling the anchoring of propargylated MIP-NGs (MIP-ynes) by click chemistry. The set-up was then tested as a proof of concept with MIPs specific for cardiac troponin T (cTnT), a biomarker of myocardial injury. The MIP-NGs were prepared by solid-phase epitope imprinting, whereby the epitope was selected using a rational in silico approach, recently developed in-house. The resultant MIP-NGs were monodisperse and bound recombinant human cTnT with a high affinity and selectivity. MIP-ynes were immobilized on optical fibers using a multi-step process based on initially grafting a visible light trithiocarbonate photoiniferter, followed by surface-initiated photopolymerization of a polymer layer in order to introduce azido moieties on the fiber, followed by MIP attachment by azide-alkyne cycloaddition. The MIP-NGs anchored on the optical fiber recognized a fluorescent epitope peptide of cTnT, opening new horizons for optical fiber sensing with MIPs. Molecularly imprinted polymer nanogels are immobilized onto an acrylic polymer surface by azide-alkyne cycloaddition after photoiniferter coupling and polymer brush synthesis for azide attachment. • Water-soluble MIP-NGs for troponin T were prepared by solid-phase epitope imprinting • A visible light trithiocarbonate photoiniferter was grafted on an optical fiber tip • This enabled surface-initiated grafting of a polymer layer with azido groups • Propargylated MIP-NGs were immobilized on the optical fiber by click chemistry • MIP-NGs binding sites remained accessible after immobilization on the optical fiber
科研通智能强力驱动
Strongly Powered by AbleSci AI