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林玉兰

系别:电子科学系

职称:副教授、硕导

邮箱:yulan.lin@xmu.edu.cn

联系方式:0592-2183301

办公地点:

个人简历:

学历:

武汉理工大学工学学学士,通信工程专业;

外围投注官网信誉平台理学博士,无线电物理专业。


研究方向:

核磁共振谱学新技术及信号处理


主讲课程:

数字信号处理

生物医学电子学实验

数值分析(研究生课)


荣誉奖励:

福建省自然科学优秀论文三等奖,2014

外围投注官网信誉平台优秀共产党员, 2016年


课题项目:

基于新型时空编码的超快速获取高质量核磁共振多维谱,2020-2023,国家自然科学基金面上项目,主持
基于新型时空编码的超快速多参数共振结构和波谱成像新方法,国家自然科学基金中国-以色列国家合作项目,2017-2020,参与
研究异核自旋-自旋偶合相位调制快速获取多维核磁共振谱方法,福建省自然科学面上项目,2016-2019,主持
不均匀场下单扫描空间编码技术获取高分辨多核NMR 谱,国家自然科学基金青年项目,2012-2015,主持


代表作:

[1]Lin YL*, Guan QS, Su JW, and Chen Z, 2018. Combining Fourier phase encoding and broadband inversion toward J-edited spectra, Journal of Magnetic Resonance , 1-7.
[2]Huang ZB, Guan QS, Chen Z, Frydman L*, and Lin YL*, 2017. A discrete Fourier-encoded, diagonal-free experiment to simplify homonuclear 2D NMR correlations, Journal of Chemical Physics , 147 (3):034201.

[3]Lin YL, Pieter E. S. S., Zhang ZY, Frydman L*, 2017. A fast approach to 3D HSQC-based spectroscopy based on a Fourier phase encoding of pre-targeted resonances. Journal of Magnetic Resonance 274: 1090-7807 (IEEE: SCI/EI).

[4]Lin YL, Adonis L, Frydman L*, 2016. Multidimensional J-driven NMR correlations by single-scan offset-encoded recoupling. Journal of Magnetic Resonance 265: 33-44 (IEEE: SCI/EI).

[6]Qiu WQ, Wei ZL,Ding N, Yang Y, Ye QM, Lin YL*, ChenZ*, 2016. Partial-Homogeneity-Based Two-dimensional high-resolution nuclear magnetic resonance spectroscopy under inhomogeneous magnetic fields. ChemPhysChem17(10): 1493-1499 (IEEE: SCI/EI).

[6]Zhang ZY, Pieter E. S. S., Cai SH, Zheng ZY, Lin YL*, Chen Z*, 2015. Establishing resolution-improved NMR spectroscopy in high magnetic fields with unknown spatiotemporal variations. The Journal of Chemical Physics 143: 244201(IEEE: SCI/EI).

[7]Qiu WQChen YHWei ZLYang JLin YL*Chen Z2015. A method based on covariance and pattern recognition for improving resolutions of spatially encoded NMR spectraMagnetic Resonance in Chemistry 53945-951(IEEE: SCI/EI).

[8]Lin YLHuang YQCai SHChen Z*2013. Intermolecular zero quantum coherence in NMR spectroscopyAnnual Reports on NMR Spectroscopy78(1)209-257(IEEE: SCI/EI).

[9]Lin YLZhang ZYCai SHChen Z*2011. High-resolution 2D J-Resolved spectroscopy in inhomogeneous fields with two scansJournal of the American Chemical Society 133(20)7632-7635(IEEE: SCI/EI).

[10]Chen Z*Cai SHHuang YQLin YL2015. High-resolution NMR spectroscopy in inhomogeneous fieldsProgress in Nuclear Magnetic Resonance Spectroscopy (90–91)1-31 (IEEE: SCI/EI).

[11]Jin YL, Cai HH, Lin YL, Cui XH*, Chen Z, 2015. Usage of the ultrafast intermolecular single-quantum coherence (UF iSQC) sequence for NMR spectroscopy of ex vivo tissue. Food Research International 77(3) 636-642(IEEE: SCI/EI).

[12]Cai HHChen HLin YLFeng JHCui XH*Chen Z*, 2014. Feasibility of ultrafast intermolecular single-quantum coherence spectroscopy in analysis of viscous-liquid foodsFood Analytical Methods8(7)1682-1690(IEEE: SCI/EI).

[13]Qu XBGuo DNing BDHou YKLin YLCai SHChen Z*2012. Undersampled MRI reconstruction with patch-based directional waveletsMagnetic Resonance Imaging30(7)964-977 (IEEE: SCI/EI).

[14]Cai CBLin YLCai SH*Sun HJZhong JHChen Z2012. Flat pancake distant dipolar fields for enhancement of intermolecular multiple-quantum coherence signalsJournal of Chemical Physics136(9):094503 (IEEE: SCI/EI).

[15]Wu CZhao MFCai SH*Lin YLChen Z2010. Ultrafast 2D COSY with constant-time phase-modulated spatial encodingJournal of Magnetic Resonance 204(1)82-90(IEEE: SCI/EI).


 

 

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