Reverse detection for spectral width improvements in spatially encoded dimensions of ultrafast two-dimensional NMR spectra

Zhiliang Wei; Jian Yang; Liangjie Lin; Guangcao Liu; Yanqin Lin; Zhong Chen

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Reverse detection for spectral width improvements in spatially encoded dimensions of ultrafast two-dimensional NMR spectra

机译：反向检测可改善超快二维NMR光谱的空间编码尺寸中的光谱宽度

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摘要

Recently, the spatially encoded technique has been broadly used in the fast analyses of chemical systems and real-time detections of chemical reactions. In spatially encoded ultrafast 2D spectra, spectral widths and resolution in spatially encoded dimensions are contradictive, leading to the risk of insufficient spectral widths when providing satisfactory resolution values for all resonances. Here, a method named as reverse detection is proposed to improve the spectral width in the spatially encoded dimension. Experimental results show that spectral width improvements are at least twofold with reverse detection solely, and more improvements can be expected along with the gradient-controlled folding method. The proposed method can be applied to almost any spatially encoded scheme with echo planar spectroscopic imaging-like detection module and may promote wide applications of ultrafast 2D spectroscopy techniques in chemical analyses.

机译：最近，空间编码技术已广泛用于化学系统的快速分析和化学反应的实时检测中。在空间编码的超快2D光谱中，空间编码尺寸的光谱宽度和分辨率是矛盾的，当为所有共振提供令人满意的分辨率值时，会导致光谱宽度不足的风险。在此，提出一种称为反向检测的方法，以改善空间编码维中的频谱宽度。实验结果表明，仅通过反向检测，光谱宽度的改善至少达到两倍，并且随着梯度控制折叠方法的发展，可以期待更多的改善。所提出的方法可以应用于几乎任何具有回波平面光谱成像样检测模块的空间编码方案，并且可以促进超快2D光谱技术在化学分析中的广泛应用。

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《Magnetic Resonance in Chemistry: MRC》 |2014年第11期|共6页
作者
Zhiliang Wei; Jian Yang; Liangjie Lin; Guangcao Liu; Yanqin Lin; Zhong Chen;
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正文语种 eng
中图分类磁化学分析法;
关键词
NMR; ~1H; ultrafast; spatially encoded; reverse detection; spectral width improvements;

机译：NMR;〜1H;超快;空间编码;反向检测;光谱宽度改善;

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机译：反向检测可改善超快二维NMR光谱的空间编码尺寸中的光谱宽度
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机译：通过优化空间编码尺寸的切趾，超快2D NMR的灵敏度和线形改善
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机译：使用Pascal三角形规则进行OCDMA系统的新二维光谱/空间码的开发与性能改进
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机译：矩阵笔法对二维NMR信号进行光谱估计
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机译：二维红外光谱探测溶质-溶剂配合物的超快化学交换和光谱扩散。
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Reverse detection for spectral width improvements in spatially encoded dimensions of ultrafast two-dimensional NMR spectra

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