Homochiral zeolites as chiral modifier for voltammetry sensors with high enantioselectivity

IF 2.8 4区化学 Q2 CHEMISTRY, ANALYTICAL Chirality Pub Date : 2024-01-15 DOI:10.1002/chir.23635

Ivan V. Vakulin, Rufina A. Zilberg, Ilnar I. Galimov, Maria A. Sycheva

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Abstract

Composite enantioselective voltammetry sensors provide a well-known solution for the analysis and discrimination of enantiomerical drugs by voltammetry. The design of such sensor presumes the use of chiral substances to impart chirality to the electrode surface. We present the results of applying a theoretical approach based on simulating the adsorption of analyte enantiomers for preparing high enantioselectivity of pioneering enantioselective sensors using homochiral zeolites as chiral modifiers.

We investigated the ability of some homochiral zeolites like CZP, ITV, OSO, STW, MFI, and SOF to act as solid chiral modifiers. Using tryptophan and tyrosine as model objects, we found that the maximum difference between the adsorption energies (ΔE_ads) of enantiomers on zeolites occurs if enantiomers are placed into the pores of zeolites. The SOF zeolite demonstrates the best enantioselectivity to both amino acids. Moreover, we compared the theoretical results with the experimental enantioselectivity value for tryptophan on a sensor designed as a paste electrode with MFI as the chiral modifier. We found that the calculated value ΔE_ads(R-S) = −11.0 kJ/mol for MFI, though it is not the best value in the zeolite set considered, it is still enough for the sensor with MFI as the chiral modifier to demonstrate a higher than usual enantioselectivity (i_p1/i_p2 = 1.58) in an experiment with R- and S- tryptophan as the analyte.

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将同手性沸石作为手性改性剂用于具有高对映射选择性的伏安法传感器

复合对映选择性伏安法传感器为利用伏安法分析和鉴别对映体药物提供了一种众所周知的解决方案。设计这种传感器需要使用手性物质来赋予电极表面手性。我们研究了 CZP、ITV、OSO、STW、MFI 和 SOF 等同手性沸石作为固体手性修饰剂的能力。以色氨酸和酪氨酸为模型对象，我们发现如果将对映体置于沸石孔隙中，对映体在沸石上的吸附能（ΔEads）会出现最大差异。SOF 沸石对两种氨基酸的对映体选择性最好。此外，我们还将理论结果与以 MFI 作为手性改性剂的浆状电极传感器上色氨酸的对映体选择性实验值进行了比较。我们发现，MFI 的计算值 ΔEads(R-S) = -11.0 kJ/mol，虽然不是所考虑的沸石组中的最佳值，但仍足以让以 MFI 作为手性修饰剂的传感器在以 R- 和 S- 色氨酸为分析物的实验中表现出比通常更高的对映选择性（ip1/ip2 = 1.58）。

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来源期刊

Chirality 医学-分析化学

CiteScore

4.40

自引率

5.00%

发文量

124

审稿时长

1 months

期刊介绍： The main aim of the journal is to publish original contributions of scientific work on the role of chirality in chemistry and biochemistry in respect to biological, chemical, materials, pharmacological, spectroscopic and physical properties. Papers on the chemistry (physiochemical, preparative synthetic, and analytical), physics, pharmacology, clinical pharmacology, toxicology, and other biological aspects of chiral molecules will be published.