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Fast Acquisition of High-Quality Nuclear Magnetic Resonance Pure Shift Spectroscopy via a Deep Neural Network.

Xiaoxu ZhengZhengxian YangChuang YangXiaoqi ShiYao LuoJie LuoQing ZengYanqin LinZhong Chen
Published in: The journal of physical chemistry letters (2022)
Pure shift methods improve the resolution of proton nuclear magnetic resonance spectra at the cost of time. The pure shift yielded by chirp excitation (PSYCHE) method is a promising pure shift method. We propose a method of reconstructing the undersampled PSYCHE spectra based on deep learning to accelerate the spectra acquisition. It only takes 17 s to obtain a high-quality pure shift spectrum. The network can completely remove undersampling artifacts and chunking sidebands and improve the signal-to-noise ratio, obtaining completely clean pure shift spectra. The reconstruction quality is better than the iterative soft thresholding method. In addition, the network can differentiate low-level signals and chunking sidebands with similar intensities in the mixture, remove sidebands, and retain signals, promoting correct mixture analysis.
Keyphrases
  • magnetic resonance
  • neural network
  • density functional theory
  • single molecule
  • magnetic resonance imaging
  • image quality
  • network analysis