State Key Laboratory Breeding Base of Green Chemistry-Synthesis Technology, College of Chemical Engineering, Zhejiang University of Technology, Hangzhou, 310032, China.
College of Chemical Engineering, Zhejiang University of Technology, Hangzhou, 310032, China.
Mikrochim Acta. 2023 Apr 18;190(5):185. doi: 10.1007/s00604-023-05765-4.
The SERS intensity of analytes is primarily influenced by the density and distribution of hotspots, which are often difficult to manipulate or regulate. In this study, cucurbit[8]uril (CB[8]), a kind of rigid macrocyclic molecule, was introduced to achieve ~ 1-nm nanogap between gold nanoparticles to increase the density of SERS hotspots. Three kinds of estrogens (estrone (E1), bisphenol A (BPA), and hexestrol (DES)) which are molecules with weak SERS signals were targeted in the hotspots by CB[8] to further improve the sensitivity and selectivity of SERS. It was demonstrated that CB[8] can link gold nanoparticles together through carbonyl groups. In addition, the host-guest interaction of CB[8] and estrogens was proved from the nuclear magnetic resonance hydrogen and infrared spectra. In the presence of CB[8], the SERS intensities of E1, BPA, and DES were increased to 19-fold, 74-fold, and 4-fold, respectively, and the LOD is 3.75 µM, 1.19 µM, and 8.26 µM, respectively. Furthermore, the proposed SERS method was applied to actual milk sample analysis with recoveries of E1 (85.0 ~ 112.8%), BPA (83.0 ~ 103.7%), and DES (62.6 ~ 132.0%). It is expected that the proposed signal enlarging strategy can be applied to other analytes after further development.
分析物的 SERS 强度主要受到热点的密度和分布的影响,而热点往往难以操纵或调节。在这项研究中,引入了葫芦[8]脲(CB[8]),一种刚性大环分子,以实现金纳米粒子之间约 1nm 的纳米间隙,从而增加 SERS 热点的密度。三种雌激素(雌酮(E1)、双酚 A(BPA)和己烯雌酚(DES))是具有较弱 SERS 信号的分子,通过 CB[8]靶向热点,进一步提高了 SERS 的灵敏度和选择性。结果表明,CB[8]可以通过羰基将金纳米粒子连接在一起。此外,从核磁共振氢谱和红外光谱证明了 CB[8]与雌激素的主体-客体相互作用。在 CB[8]存在的情况下,E1、BPA 和 DES 的 SERS 强度分别增加到 19 倍、74 倍和 4 倍,LOD 分别为 3.75µM、1.19µM 和 8.26µM。此外,该方法还应用于实际牛奶样品分析,E1(85.0112.8%)、BPA(83.0103.7%)和 DES(62.6~132.0%)的回收率均令人满意。预期该信号放大策略在进一步开发后可应用于其他分析物。
