Pure Shift NMR in Continuous Flow

被引:0
|
作者
Bazzoni, Margherita [1 ]
Regheasse, Armand [1 ]
Caytan, Elsa [2 ]
Felpin, Francois-Xavier [1 ]
Giraudeau, Patrick [1 ]
Bernard, Aurelie [1 ]
Adams, Ralph W. [3 ]
Morris, Gareth A. [3 ]
Nilsson, Mathias [3 ]
Dumez, Jean-Nicolas [1 ]
机构
[1] Nantes Univ, CNRS, CEISAM, UMR6230, Nantes, France
[2] Univ Rennes, ISCR, CNRS, UMR6226, Rennes, France
[3] Univ Manchester, Dept Chem, Manchester, England
来源
CHEMISTRY-A EUROPEAN JOURNAL | 2025年 / 31卷 / 01期
基金
欧洲研究理事会;
关键词
Flow NMR; Reaction monitoring; Pure shift NMR; ONLINE NMR; SPECTROSCOPY; RESOLUTION; TIME; KINETICS; H-1-NMR; TUBE;
D O I
10.1002/chem.202403385
中图分类号
O6 [化学];
学科分类号
0703 ;
摘要
Flow NMR is an expanding analytical approach with applications that include in-line analysis for process control and optimisation, and real-time reaction monitoring. The samples monitored by flow NMR are typically mixtures that yield complex 1D 1H spectra. "Pure shift" NMR is a powerful approach to simplifying 1H NMR spectra, but its standard implementation is not compatible with continuous flow because of interference between sample motion and the position-dependent spin manipulations that are required in pure shift NMR. Here we show that pure shift NMR spectra can be successfully collected for continuously flowing samples, thanks to an adapted acquisition scheme, robust solvent suppression, and a velocity-compensation strategy. The resulting method is used to collect ultrahigh resolution reaction monitoring data. Pure shift NMR spectra are expected to benefit many applications of flow NMR.
引用
收藏
页数:7
相关论文
共 50 条
  • [31] J-Edited Pure Shift NMR for the Facile Measurement of nJHH for Specific Protons
    Chaudhari, Sachin Rama
    Suryaprakash, N.
    CHEMPHYSCHEM, 2015, 16 (05) : 1079 - 1082
  • [32] Semi-real-time acquisition for fast pure shift NMR at maximum resolution
    Kiraly, Peter
    Nilsson, Mathias
    Morris, Gareth A.
    JOURNAL OF MAGNETIC RESONANCE, 2018, 293 : 19 - 27
  • [33] Resolving the complexity in human milk oligosaccharides using pure shift NMR methods and CASPER
    Smith, Marshall J. J.
    Gates, Emma L. L.
    Widmalm, Goran
    Adams, Ralph W. W.
    Morris, Gareth A. A.
    Nilsson, Mathias
    ORGANIC & BIOMOLECULAR CHEMISTRY, 2023, 21 (19) : 3984 - 3990
  • [34] A Pure Shift-Based NMR Method for Transverse Relaxation Measurements on Complex Samples
    Huang, Yuqing
    Zhan, Haolin
    You, Xueqiu
    Yang, Yu
    Li, Chen
    Cai, Shuhui
    Chen, Zhong
    IEEE TRANSACTIONS ON INSTRUMENTATION AND MEASUREMENT, 2020, 69 (01) : 201 - 211
  • [35] Combination of pure shift NMR and chemical shift selective filters for analysis of Fischer-Tropsch waste-water
    Zhao, Qi
    Liu, Yu
    Ma, Hui
    Qiao, Yan
    Chao, Jianbin
    Hou, Xianglin
    Wang, Yuqi
    Wang, Yingxiong
    ANALYTICA CHIMICA ACTA, 2020, 1110 : 131 - 140
  • [36] Pure by NMR?
    Claridge, Timothy D. W.
    Davies, Stephen G.
    Polywka, Mario E. C.
    Roberts, Paul M.
    Russell, Angela J.
    Savory, Edward D.
    Smith, Andrew D.
    ORGANIC LETTERS, 2008, 10 (23) : 5433 - 5436
  • [37] Combining Fast Pure Shift NMR and GEMSTONE-Based Selective TOCSY for Efficient NMR Analysis of Complex Systems
    Zhan, Haolin
    Liu, Jiawei
    Fang, Qiyuan
    Huang, Yuqing
    Chen, Xinyu
    Ni, Yang
    Zhou, Lingling
    Chen, Zhong
    ANALYTICAL CHEMISTRY, 2024, 96 (33) : 13742 - 13748
  • [38] Paradigm shift in medicinal products synthesis: Continuous flow technology
    Koeberg, Bryce L.
    Sagandira, Mellisa B.
    Sagandira, Cloudius R.
    Watts, Paul
    TETRAHEDRON, 2024, 168
  • [39] INDEPENDENT DETERMINATION OF ASSOCIATION CONSTANT AND SHIFT OF THE PURE COMPLEX FROM NMR CHEMICAL-SHIFT DATA BY A GRAPHICAL-METHOD
    SEAL, BK
    MUKHERJEE, AK
    MUKHERJEE, DC
    FARRELL, PG
    WESTWOOD, JV
    JOURNAL OF MAGNETIC RESONANCE, 1983, 51 (02) : 318 - 322
  • [40] Ultra-Clean Pure Shift 1H-NMR applied to metabolomics profiling
    Lopez, Juan M.
    Cabrera, Rodrigo
    Maruenda, Helena
    SCIENTIFIC REPORTS, 2019, 9 (1)
12345