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通过振动圆二色光谱表征脯氨醇醚催化反应中间体的立体化学

Stereochemistry of the Reaction Intermediates of Prolinol Ether Catalyzed Reactions Characterized by Vibrational Circular Dichroism Spectroscopy.

作者信息

Golub Tino P, Merten Christian

机构信息

Fakultät für Chemie und Biochemie, Organische Chemie II, Ruhr Universität Bochum, Universitätsstrasse 150, 44801, Bochum, Germany.

出版信息

Chemistry. 2020 Feb 21;26(11):2349-2353. doi: 10.1002/chem.201905614. Epub 2020 Feb 4.

DOI:10.1002/chem.201905614
PMID:31854022
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7065232/
Abstract

Spectroscopic characterizations of key reaction intermediates are often considered the final confirmation of a reaction mechanism. This proof-of-principle study showcases the application of vibrational circular dichroism (VCD) spectroscopy for the characterization of in situ generated reaction intermediates using the key intermediates of enamine catalysis of Jørgensen-Hayashi-type prolinol ether catalysts as model system. By comparison of experimental and computed spectra, the enamines are shown to preferentially adopt an anti-conformation with E-configured C=C bond. For the parent prolinol catalyst, the structure and stereochemistry of the oxazolidine side product is determined as well. This study thus demonstrates that VCD spectra can provide insights into structural preferences of organocatalysts that utilize a covalent activation mechanism. Thereby it outlines new fields of applications for VCD spectroscopy and finally adds the technique to the toolbox of physical organic chemistry for in-depth mechanistic studies.

摘要

关键反应中间体的光谱表征通常被视为反应机理的最终确认。这项原理验证研究展示了振动圆二色性(VCD)光谱在使用约根森-林型脯氨醇醚催化剂的烯胺催化关键中间体作为模型系统来表征原位生成的反应中间体方面的应用。通过比较实验光谱和计算光谱,结果表明烯胺优先采用具有E构型碳碳双键的反式构象。对于母体脯氨醇催化剂,还确定了恶唑烷副产物的结构和立体化学。因此,这项研究表明VCD光谱可以深入了解利用共价活化机制的有机催化剂的结构偏好。从而概述了VCD光谱的新应用领域,并最终将该技术添加到物理有机化学的工具箱中,用于深入的机理研究。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1b9a/7065232/d5f1ae2d339f/CHEM-26-2349-g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1b9a/7065232/4a25e73bdb2f/CHEM-26-2349-g006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1b9a/7065232/7a9337eccb1e/CHEM-26-2349-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1b9a/7065232/5d331c49f2ea/CHEM-26-2349-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1b9a/7065232/c405c3fd7713/CHEM-26-2349-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1b9a/7065232/9c9bb53c5541/CHEM-26-2349-g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1b9a/7065232/d5f1ae2d339f/CHEM-26-2349-g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1b9a/7065232/4a25e73bdb2f/CHEM-26-2349-g006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1b9a/7065232/7a9337eccb1e/CHEM-26-2349-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1b9a/7065232/5d331c49f2ea/CHEM-26-2349-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1b9a/7065232/c405c3fd7713/CHEM-26-2349-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1b9a/7065232/9c9bb53c5541/CHEM-26-2349-g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1b9a/7065232/d5f1ae2d339f/CHEM-26-2349-g005.jpg

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