Jia-Xiang Xin scite author profile

Most current approaches applied for the essential identification of adulteration in edible vegetable oils are of limited practical benefit because they require long analysis times, professional training, and costly instrumentation. The present work addresses this issue by developing a novel simple, accurate, and rapid identification approach based on the magnetic resonance relaxation fingerprints obtained from low-field nuclear magnetic resonance spectroscopy measurements of edible vegetable oils. The relaxation fingerprints obtained for six types of edible vegetable oil, including flaxseed oil, olive oil, soybean oil, corn oil, peanut oil, and sunflower oil, are demonstrated to have sufficiently unique characteristics to enable the identification of the individual types of oil in a sample. By using principal component analysis, three characteristic regions in the fingerprints were screened out to create a novel three-dimensional characteristic coordination system for oil discrimination and adulteration identification. Univariate analysis and partial least squares regression were used to successfully quantify the oil adulteration in adulterated binary oil samples, indicating the great potential of the present approach on both identification and quantification of edible oil adulteration.

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Distinguishing glutamate and glutamine in in vivo¹H MRS based on nuclear spin singlet order filtering

Xin

Wei

Ren

et al. 2022

Magnetic Resonance in Med

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The signals of glutamate (Glu) and glutamine (Gln) are often significantly overlapped in routine 1 H-MR spectra of human brain in vivo. Selectively probing the signals of Glu and Gln in vivo is very important for the study of the metabolisms in which Glu and Gln are involved. Methods: The Glu−/Gln-targeted pulse sequences are developed to selectively probe the signals of Glu and Gln. The core part of the Glu−/Gln-targeted pulse sequences lies on the preparation of the nuclear spin singlet orders (SSOs) of the five-spin systems of Glu and Gln. The optimal control method is used to prepare the SSOs of Glu and Gln with high efficiency. Results: The Glu−/Gln-targeted pulse sequences have been applied on phantoms to selectively probe the signals of Glu and Gln. Moreover, in the in vivo experiments, the signals of Glu and Gln in human brains of healthy subjects have been successfully probed separately. Conclusion:The developed Glu−/Gln-targeted pulse sequences can be used to distinguish the 1 H-MR signals of Glu and Gln in human brains in vivo. The optimal control method provides an effective way to prepare the SSO of a specific spin system with high efficiency and in turn selectively probe the signals of a targeted molecule.

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Preparation of Long‐Lived States in a Multi‐Spin System by Using an Optimal Control Method

Wei

Xin

et al. 2020

ChemPhysChem

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The lifetime Ts of a long‐lived nuclear spin state (LLS) could be much longer than the longitudinal order T1. Many spin systems were used to produce long‐lived states, including two or more homonuclear spins that couple to each other. For multiple homonuclear spins with rather small chemical shift difference, normally it is difficult to selectively control the spins and then to prepare a LLS. Herein, we present a scheme that prepares different spin orders in a multi‐spin system by using optimal control and numerical calculation. By experimentally measuring the lifetime of the states, we find that for a three‐spin physical system, although there are many forms of state combinations with different spin orders, each component has its own lifetime.

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Multiple-targeting NMR signal selection by optimal control of nuclear spin singlet

Yang

Xin

et al. 2022

Journal of Magnetic Resonance

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Spin-Space-Encoding Magnetic Resonance Imaging: A New Application for Rapid and Sensitive Monitoring of Dynamic Swelling of Confined Hydrogels

Wang

Xin

et al. 2023

Molecules

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An NMR method based on the gradient-based broadening fingerprint using line shape enhancement (PROFILE) is put forward to precisely and sensitively study hydrogel swelling under restricted conditions. This approach achieves a match between the resonance frequency and spatial position of the sample. A three-component hydrogel with salt ions was designed and synthesized to show the monitoring more clearly. The relationship between the hydrogel swelling and the frequency signal is revealed through the one-dimensional imaging. This method enables real-time monitoring and avoids changing the swelling environment of the hydrogel during contact. The accuracy of this method may reach the micron order. This finding provides an approach to the rapid and non-destructive detection of swelling, especially one-dimensional swelling, and may show the material exchange between the hydrogel and swelling medium.

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Jia-Xiang Xin

Rapid Identification of Adulteration in Edible Vegetable Oils Based on Low-Field Nuclear Magnetic Resonance Relaxation Fingerprints

Distinguishing glutamate and glutamine in in vivo¹H MRS based on nuclear spin singlet order filtering

Preparation of Long‐Lived States in a Multi‐Spin System by Using an Optimal Control Method

Multiple-targeting NMR signal selection by optimal control of nuclear spin singlet

Spin-Space-Encoding Magnetic Resonance Imaging: A New Application for Rapid and Sensitive Monitoring of Dynamic Swelling of Confined Hydrogels

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Jia-Xiang Xin

Rapid Identification of Adulteration in Edible Vegetable Oils Based on Low-Field Nuclear Magnetic Resonance Relaxation Fingerprints

Distinguishing glutamate and glutamine in in vivo1H MRS based on nuclear spin singlet order filtering

Preparation of Long‐Lived States in a Multi‐Spin System by Using an Optimal Control Method

Multiple-targeting NMR signal selection by optimal control of nuclear spin singlet

Spin-Space-Encoding Magnetic Resonance Imaging: A New Application for Rapid and Sensitive Monitoring of Dynamic Swelling of Confined Hydrogels

Contact Info

Product

Resources

About

Distinguishing glutamate and glutamine in in vivo¹H MRS based on nuclear spin singlet order filtering