太赫兹辐射
水溶液
化学
分析物
吸收(声学)
太赫兹光谱与技术
折射率
领域(数学)
萃取(化学)
生物系统
微流控
卷积神经网络
小波变换
光谱学
纳米技术
制作
光电子学
吸收光谱法
联轴节(管道)
分析化学(期刊)
小波
作者
Zhang Zhang,Yuxing Wang,Zhihao Huang,Longhai Liu,Kaishuai Yang,Yawei Kuang,Guojie Tu,Wei Xu,He Liu,Qun Ren,Zhida Han,Lanju Liang,Jianquan Yao
标识
DOI:10.1021/acs.analchem.5c01044
摘要
Precise and nonlabel determination of organic aqueous solutions in terahertz (THz) bands is essential for chemical analysis and process optimization, where the picosecond-scale dynamics of hydrogen-bond network in organic aqueous solutions is involved. However, the weak interaction between the analyte and THz waves, coupled with the strong absorption of THz waves by liquid samples, significantly limits the development of high-sensitivity detection of liquids in THz bands. Here, by the device fabrication of microfluidic-integrated metasurfaces (MIMs), we effectively confine the liquid within a restricted space and strengthen the interaction of THz waves with analytes. The sequential extraction approach to the temporal data displays tiny changes in the effective refractive index of the MIMs. Results from the wavelet transform algorithm and the oscillator-Debye field model reveal that the changes of the hydrogen-bond networks in solutions significantly influence the properties of localized surface plasmons, demonstrating the coupling of the localized field energy to the liquids and a critical state in the hydrogen-bond networks. Moreover, a wavelet-assisted convolutional neural networks method was developed for precise classification of organic aqueous solutions, enabling the successful detection of 20 μL water in 1 mL organic solutions. Our work demonstrates that based on the MIMs platform, traditional THz spectroscopy exhibits great potential in the precise detection of organic aqueous solutions. The underlying physical implications offer valuable references for understanding LSPs-liquid interactions and the dynamic characteristics of water-organic mixtures.
科研通智能强力驱动
Strongly Powered by AbleSci AI