旋光
对映体
波长
极化(电化学)
谱线
脯氨酸
分子
稳健性(进化)
化学
对映体过量
氨基酸
材料科学
分析化学(期刊)
生物系统
化学物理
物理
色谱法
光电子学
物理化学
立体化学
有机化学
对映选择合成
量子力学
催化作用
生物化学
基因
生物
作者
Dongmei Li,Tian Gu,Yonghong He,Fang Liu,Anping Yang,Q. He,Zhiyuan Shen,Meiguo Xin
标识
DOI:10.1016/j.bios.2018.03.033
摘要
A new chiral sensor based on weak measurement to accurately measure the optical rotation (OR) has been developed for the estimation of a trace amount of chiral molecule. With the principle of optical weak measurement in frequency domain, the central wavelength shift of output spectra is quantitatively relative to the angle of preselected polarization. Hence, a chiral molecule (e.g., L-amino acid, or D-amino acid) can be enantioselectively determined by modifying the preselection angle with the OR, which will cause the rotation of a polarization plane. The concentration of the chiral sample, corresponding to its optical activity, is quantitatively analyzed with the central wavelength shift of output spectra, which can be collected in real time. Immune to the refractive index change, the proposed chiral sensor is valid in complicated measuring circumstance. The detections of Proline enantiomer concentration in different solvents were implemented. The results demonstrated that weak measurement acted as a reliable method to chiral recognition of Proline enantiomers in diverse circumstance with the merits of high precision and good robustness. In addition, this real-time monitoring approach plays a crucial part in asymmetric synthesis and biological systems.
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