Huang Shuyi, Ye Youai, Pang Xinglin, Wang Yuan, Tan Rixin, Wu Teyu, Li Hanjie, Bai Zhijun, Liang Yong
Guangzhou Center for Disease Control and Prevention (Guangzhou Health Supervision Institute), Guangzhou, 510440, China.
School of Chemistry, South China Normal University, Guangzhou, 51006, China.
Mikrochim Acta. 2025 May 2;192(5):333. doi: 10.1007/s00604-025-07188-9.
Internal self-imprinting is an ingenious way to achieve the combination of imprinting and Pickering emulsions. Herein, internal self-polymerizing imprinted Janus nanosheets for detecting bisphenol A (BPA) and multiple metal ions are reported. Janus composite hollow spheres were prepared by grafting an imprinted polymer onto vinyl groups after an emulsion interfacial self-organized sol-gel process. After crushing, the external surface is further modified with thiol groups (-SH) and fluorescence signal indicators. Janus silica nanosheets (J-MIPs/SH@QDs) with bispecific artificial receptors (-SH and molecularly imprinted sites) were designed to specifically identify BPA and 4 metal ions (Hg, Cu, Cr, Ag). CdTe QDs with red and yellow emissions were incorporated into the J-MIPs/SH@QDs as fluorescent signal indicators. Due to the presence of molecularly imprinted sites, BPA can be recognized with high specificity, resulting in increased fluorescence intensity. The thiol groups and metal ions formed a chelated structure with the fluorescence intensity decreasing. Linear discriminant analysis (LDA) in SPSS software can be used to analyze these specific fluorescence responses to distinguish BPA and multiple metal ions. In conclusion, J-MIPs/SH@QDs exhibit sensitivity in multi-organic-inorganic analyte combinations. Its desegregation of innovative bispecific receptors creates a multitude of opportunities for the specific and effective detection of coexisting contaminants.
内自印迹是实现印迹与皮克林乳液相结合的一种巧妙方法。本文报道了用于检测双酚A(BPA)和多种金属离子的内自聚合印迹Janus纳米片。通过乳液界面自组装溶胶-凝胶过程后,将印迹聚合物接枝到乙烯基上制备了Janus复合空心球。粉碎后,外表面进一步用硫醇基(-SH)和荧光信号指示剂进行修饰。设计了具有双特异性人工受体(-SH和分子印迹位点)的Janus二氧化硅纳米片(J-MIPs/SH@QDs),以特异性识别BPA和4种金属离子(Hg、Cu、Cr、Ag)。将具有红色和黄色发射的CdTe量子点作为荧光信号指示剂掺入J-MIPs/SH@QDs中。由于存在分子印迹位点,BPA能够被高度特异性识别,导致荧光强度增加。硫醇基与金属离子形成螯合结构,荧光强度降低。SPSS软件中的线性判别分析(LDA)可用于分析这些特异性荧光响应,以区分BPA和多种金属离子。总之,J-MIPs/SH@QDs在多有机-无机分析物组合中表现出灵敏度。其创新性双特异性受体的解聚为共存污染物的特异性和有效检测创造了众多机会。
