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林雁勤

系别:电子科学系

职称:教授、博导

邮箱:linyq@xmu.edu.cn

联系方式:

办公地点:海韵校区物理大楼341

个人简历:

学历:

外围投注官网信誉平台理学学士,电子信息科学与技术专业;

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:

磁共振信号处理、深度学习、核磁共振新技术、生物医学应用


主讲课程:

信号与系统 (本科生课)

数字信号与图像处理实验 (本科生课)

分子影像技术(研究生课)


学术兼职:

国内外主流期刊审稿人,如Annual report on NMR spectroscopy, Analytical Chemistry, Magnetic resonance in medicine, 波谱学杂志

国家自然科学基金评审专家

《波谱学杂志》青年编委


成果奖励:

E. K. Zavoisky StipendISMRM201720142013

Educational StipendISMRM200720082009

外围投注官网信誉平台 体育外围投注 教学比赛三等奖,2020

外围投注官网信誉平台 闽都国际银行奖教金(教学类),2019

外围投注官网信誉平台 体育外围投注 本科教学先进个人,2019

外围投注官网信誉平台 本科教学示范岗,2018

外围投注官网信誉平台 中国银行奖教金(科研类),2016

外围投注官网信誉平台 物理与机电工程学院 优秀共产党员,2015

外围投注官网信誉平台 物理与机电工程学院 优秀班主任,2013


在研项目:

强磁场下基于时空编码的快速高分辨核磁共振定域谱新方法及其应用,国家自然科学基金,2018.1-2020.12

核磁共振波谱成像新技术及其在高级别胶质瘤中的应用,福建省引导性项目, 2018.4-2021.4


代表作:

[1]Jie Luo, Qing Zeng, Ke Wu, Yanqin Lin*. Fast reconstruction of non-uniform sampling multidimensional NMR spectroscopy via a deep neural network. Journal of Magnetic Resonance, 317: 106772, 2020.

[2] Qing Zeng, Jinyong Chen, Chaoqun Zhan, Yanqin Lin*, Zhong Chen. Fully exploiting the power of 2D NMR J-resolved spectroscopy. Analytical Chemistry, 92:6893-6899, 2020.

[3] Jinyong Chen, Qing Zeng, Dan Tian, Yanqin Lin*, Zhong Chen. High-resolution 2D NMR spectroscopy based on the Radon transform and pure shift technique for studying chemical shift perturbations. Magnetic Resonance in Chemistry, 2020, DOI: 10.1002/mrc.5000.

[4] Qing Zeng, Jinyong Chen, Yanqin Lin*, Zhong Chen. Boosting resolution in NMR spectroscopy by chemical shift upscaling. Analytica Chimica Acta, 1110:109-114, 2020.

[5] Chaoqun Zhan, Qing Zeng, Jinyong Chen, Yanqin Lin*, Zhong Chen. PE-SERF: A sensitivity-improved experiment to measure JHH in crowded spectra. Journal of Magnetic Resonance, 308:106590, 2019.

[6] Qing Zeng, Yanqin Lin*, Zhong Chen. Pushing resolution limits for extracting 1H–1H scalar coupling constants by a resolution-enhanced selective refocusing method. Journal of Chemical Physics, 150: 184202, 2019.

[7] Yanqin Lin*, Qing Zeng, Liangjie Lin, Zhong Chen. High resolution nuclear magnetic resonance spectroscopy and its application in tissue, drug structure elucidation and metabolomics. Current Medicinal Chemistry, 26: 2190-2207, 2019.

[8] Yanqin Lin*, Qing Zeng, Liangjie Lin, Zhong Chen, Peter B. Barker. High-resolution methods for the measurement of scalar coupling constants. Progress in Nuclear Magnetic Resonance Spectroscopy, 109:135-159, 2018.

[9] Qing Zeng, Liangjie Lin, Jinyong Chen, Yanqin Lin*, Peter B. Barker, Zhong Chen. A simultaneous multi-slice selective J-resolved experiment for fully resolved scalar coupling information. Journal of Magnetic Resonance, 282:27-31, 2017.

[10] Yanqin Lin*, Liangjie Lin, Zhiliang Wei, Jianhui Zhong, Zhong Chen. Localized one-dimensional single voxel magnetic resonance spectroscopy without J coupling modulations. Magnetic Resonance in Medicine,76:1661-1667, 2016.

[11] Zhiliang Wei#, Jian Yang#, Youhe Chen, Lin Chen, Shuohui Cao, Shuhui Cai, Yanqin Lin*, Zhong Chen*. Ultrafast multidimensional nuclear magnetic resonance technique: a concept of proof based on inverse-k-space for convenient and efficient performance. Applied Physics Letters, 108:084102, 2016.

[12] Yuqing Huang, Yung-Ya Lin, Shuhui Cai, Yu Yang, Huijun Sun, Yanqin Lin*, Zhong Chen*. High-resolution nuclear magnetic resonance measurements in inhomogeneous magnetic fields: A fast two-dimensional J-resolved experiment. Journal of Chemical Physics, 144:104202, 2016.

[13] Liangjie Lin, Zhiliang Wei, Yanqin Lin*, Zhong Chen. Measuring JHH values with a selective constant-time 2D NMR protocol. Journal of Magnetic Resonance, 272:20-24, 2016.

[14] Liangjie Lin, Zhiliang Wei, Qing Zeng, Jian Yang, Yanqin Lin*, Zhong Chen. Fast acquisition of high-resolution 2D NMR spectroscopy in inhomogeneous magnetic elds. Chemical Physics Letters, 652:62-67, 2016.

[15] Liangjie Lin, Zhiliang Wei, Yanqin Lin*, Zhong Chen. A single-scan method for NMR 2D J-resolved spectroscopy. Chemical Communications, 51:1234-1236, 2015.

[16] Zhiliang Wei, Jian Yang, Youhe Chen, Yanqin Lin*, Zhong Chen*. Line broadening interference for high-resolution nuclear magnetic resonance spectra under inhomogeneous magnetic fields. Journal of Chemical Physics, 142: 134202, 2015.

[17] Zhiliang Wei, Liangjie Lin, Chuchu Wang, Jian Yang, Guangcao Liu, Jianhui Zhong, Yanqin Lin*, Zhong Chen*. High-resolution localized spatiotemporal encoding correlated spectra under inhomogeneous magnetic fields via asymmetrical gradient encoding/decoding. NMR in Biomedicine, 28:210-216, 2015.

[18] Chuchu Wang, Liandi Zhang, Zhiliang Wei, Liangjie Lin, Yanqin Lin*, Zhong Chen. High-resolution NMR spectroscopy via simultaneous acquisitions of intermolecular zero- and double-quantum coherence signals in inhomogeneous. Chemical Physics Letters, 625:63-68, 2015.

[19] Hanping Ke, Honghao Cai, Yanqin Lin*, Liangjie Lin, Shuhui Cai*, Zhong Chen. Hadamard-encoded localized high-resolution NMR spectroscopy via intermolecular double-quantum coherences. Chemical Physics Letters, 622:63-68, 2015.

[20] Yanqin Lin, Qinta Zhang, Zhiliang Wei, Shuhui Cai, Jianhui Zhong, Zhong Chen*. Ultrafast localized two-dimensional magnetic resonance correlated spectroscopy via spatially encoded technique. Magnetic Resonance in Medicine, 71:903-910, 2014.

[21] Zhiliang Wei, Liangjie Lin, Youhe Chen, Yanqin Lin*, Zhong Chen*. Partial homogeneity based high-resolution nuclear magnetic resonance spectra under inhomogeneous magnetic fields. Applied Physics Letters, 105:132406, 2014.

[22] Yanqin Lin*, Zhiliang Wei, Liangdi Zhang, Liangjie Lin, Zhong Chen*. High-resolution 2D NMR spectra in inhomogeneous fields via 3D acquisition. Chemical Physics Letters, 599:44-50, 2014.

[23] Hanping Ke, Honghao Cai, Shuhui Cai*, Hao Chen, Yanqin Lin*, Zhong Chen. Hadamard-encoded high-resolution NMR spectroscopy via intermolecular single-quantum coherences. Chemical Physics, 444:61-65, 2014.

[24] Zhiliang Wei, Jian Yang, Liangjie Lin, Guangcao Liu, Yanqin Lin*, Zhong Chen. Reverse detection for spectral width improvements in spatially encoded dimensions of ultrafast two-dimensional NMR spectra. Magnetic Resonance in Chemistry, 52:680-685, 2014.

[25] Liangjie Lin, Zhiliang Wei, Jian Yang, Yanqin Lin*, Zhong Chen. Improving spectral resolution in spatial encoding dimension of single-scan nuclear magnetic resonance 2D spin echo correlated spectroscopy. Molecular Physics, 112:2753-2760, 2014.

[26] Yushan Chen, Zhiyong Zhang, Yanqin Lin*, Congbo Cai, Shuhui Cai, Zhong Chen*. Localized two-dimensional correlated spectroscopy based on Hadamard encoding technique. Molecular Physics, 112:2602-2607, 2014.

[27] Hanping Ke, Hao Chen, Yanqin Lin*, Zhiliang Wei, Shuhui Cai*, Zhiyong Zhang, Zhong Chen. Fast high-resolution nuclear magnetic resonance spectroscopy through indirect zero-quantum coherence detection in inhomogeneous fields. Chinese Physics B, 23:063201, 2014.

[28] Zhiliang Wei, Liangjie Lin, Yanqin Lin*, Shuhui Cai, Zhong Chen. Ultrafast acquisition of localized two-dimensional magnetic resonance correlated spectra of inhomogeneous biological tissues with resolution improvements. Chemical Physics Letters, 581:96-102, 2013.

[29] Meijin Lin, Yanqin Lin, Xi Chen*, Shuhui Cai, Zhong Chen*. High-resolution absorptive intermolecular multiple-quantum coherence NMR spectroscopy under inhomogeneous fields. Journal of Magnetic Resonance, 190:289-295, 2012

[30] Yanqin Lin, Zhong Chen, Jianhui Zhong. Signal-to-noise ratio enhancement of intermolecular double-quantum coherence MR spectroscopy in inhomogeneous fields with phased array coils on a 3 tesla whole-body scanner, Journal of Magnetic Resonance Imaging, 2011, 33:698-703.

[31] Yanqin Lin, Congbo Cai, Shuhui Cai, Jianhui Zhong, Zhong Chen. High-resolution MR spectroscopy via intermolecular double-quantum coherences in inhomogeneous B0 and B1 fields, Magnetic Resonance Imaging, 2011, 29:601-607.

[32] Yanqin Lin, Tianliang Gu, Zhong Chen, Scott Kennedy, Mathews Jacob, Jianhui Zhong. High-resolution MRS in the presence of field inhomogeneity via intermolecular double-quantum coherences on a 3-T whole-body scanner. Magnetic Resonance in Medicine, 2010, 63:303-311.

[33] Zhong Chen, Yuqing Huang, Yanqin Lin, Shuhui Cai. Accurate measurements of small J coupling constants. Annual Reports on NMR Spectroscopy, 2010, 72:157-183.

[34] Yuqing Huang, Shuhui Cai, Yanqin Lin, Zhong Chen. An intermolecular single-quantum coherence detection scheme for high-resolution 2D J-resolved spectroscopy in inhomogeneous fields. Applied Spectroscopy, 2010, 64:235-240.

[35] Yanqin Lin, Zhong Chen, Shuhui Cai, Jianhui Zhong. High-resolution J-scaling nuclear magnetic resonance spectra in inhomogeneous fields via intermolecular multiple-quantum coherences. Applied Spectroscopy, 2009, 63:585-590.

[36] Yanqin Lin, Zhong Chen, Shuhui Cai, Jianhui Zhong. Accurate measurements of small J coupling constants under inhomogeneous fields via intermolecular multiple-quantum coherences. Journal of Magnetic Resonance, 2008, 190:298-306.

[37] Yanqin Lin, Zhiwei Chen, Congbo Cai, Zhong Chen. High-resolution NMR spectra under inhomogeneous fields via intermolecular double-quantum coherences. Spectrochimica Acta Part A: Molecular and Biomolecular, 2008, 70:1025-1028.

[38] Congbo Cai, Yanqin Lin, Zhong Chen, Shuhui Cai, Jianhui Zhong. High-resolution NMR spectra in inhomogeneous fields utilizing the CRAZED sequence without coherence selection gradients, Journal of Magnetic Resonance, 2008, 193:94-101.

[39] Yanqin Lin, Xu Liu, Song Chen, Zhong Chen. Indirect measurement of NMR scalar coupling constants under inhomogeneous magnetic fields. Proc. of SPIE, 2006, 63572Z:1-6.

[40] Chen Jinyong, Zeng Qing, Lin Yanqin*, Chen Zhong. Simultaneous multi-slice selective constant-time J-resolved spectroscopy for measuring J values. Chinese Journal of Magnetic Resonance, 2019, 36(4): 456-462. (Cover paper)

[41] 胡浩,韦芝良*, 林良杰, 孙惠军, 林雁勤*, 陈忠. 基于选择编码的超快速磁共振波谱方法. 波谱学杂志, :563-573, 2015

[42] 张正炎, 屈小波, 林雁勤*, 陈忠. 基于近似l 范数最小化的 NMR波谱稀疏重建算法. 波谱学杂志, 30(4):67-79, 2013.

[43] 王小红, 张钦塔, 林雁勤*, 陈忠. 二维核磁共振定域谱及其在活体中的应用. 波谱学杂志, 2011.

[44] 陈忠, 蔡淑惠, 黄玉清, 蔡聪波, 林雁勤, 陈志伟. 核磁共振中分子间多量子相干及其应用. 外围投注官网信誉平台学报2011, 50:193-202

[45] 王冬, 林雁勤, 廖新丽, 陈志伟. 高极化自旋体系纵向弛豫时间的测量. 外围投注官网信誉平台学报2008, 47:25-30

[46] 林雁勤,陈希,林涛,柯恩锋,陈忠. 振动引起的不稳定磁场对核磁共振谱图的影响. 外围投注官网信誉平台学报, 2006, 45:328-332


专利和软件著作权:

1. LIN, Yanqin 林雁勤, ZENG, Qing 曾庆, CHEN, Jinyong 陈金永, CHEN, Zhong 陈忠. NUCLEAR MAGNETIC RESONANCE MULTIDIMENSIONAL SPECTRUM METHOD FOR MEASURING HYDROGEN-HYDROGEN COUPLING CONSTANTS OF A PLURALITY OF COUPLING NETWORKS. PCT专利号PCT/CN2018/071808, 申请日20180108, 公开日20180719.

2. 林雁勤;詹超群;曾庆;陈金永;陈忠. 一种测量特定氢核氢-氢耦合常数的核磁共振多维谱方法. 发明专利CN109187613A, 授权日期:2019.7.19.

3. 林雁勤;曾庆;陈忠.一种获得J偶合常数放大的谱图的核磁共振方法. 发明专利CN108279392A, 授权日期:2019.7.8.

4. 林雁勤;段博;田丹;陈忠. 一种单体素定域一维高分辨同核去耦谱方法. 发明专利CN108107391A, 授权日期:2019.6.6.

5. 林雁勤;曾庆;陈忠. 一种高分辨率的测量氢-J偶合常数的核磁共振谱方法. 发明专利CN108732195A, 授权日期:2019.5.29.

6. 林雁勤, 汪凯宇, 陈忠. 一种用于活体蚯蚓的核磁共振检测装置. 实用新型CN201720192031.0, 公开/公告号CN207136849U. 授权日期:2018.3.27.

7. 林雁勤, 曾庆, 陈金永, 林良杰, 陈忠. 一种测量分子中所有氢-氢耦合常数的核磁共振方法. 发明专利CN201710173095.0, 公开/公告号CN106706694A. 授权日期:2018.7.10.

8. 林雁勤, 曾庆, 陈金永, 陈忠. 测量多个耦合网络的氢-氢耦合常数的核磁共振多维谱方法. 发明专利CN201710025922.1, 公开/公告号CN106932426A. 授权日期:2018.1.2.

9. 林雁勤, 林良杰, 曾庆, 韦芝良, 陈忠. 一种测量氢-J耦合常数的磁共振二维谱方法. 发明专利CN201510473574.5, 公开/公告号CN105092629A. 授权日期:2017.4.5.

10. 陈忠, 韦芝良, 杨健, 陈友和, 陈林, 林雁勤. 一种在不均匀磁场下获取二维核磁共振相干谱图的方法. 发明专利CN201510437976.X, 公开/公告号CN105004748A. 授权日期:2017.4.5.

11. 林雁勤, 林良杰, 韦芝良, 陈忠. 一种单扫描获取磁共振二维J-分解谱的方法. 发明专利CN201410502303.3, 公开/公告号CN104237820A. 授权日期:2017.10.31.

12. 陈忠, 韦芝良, 杨健, 张云燕, 阎牧云, 林雁勤. 一种在不均匀磁场下获取高分辨核磁共振谱图的方法. 发明专利CN201410452872.1, 公开/公告号CN104198970A. 授权日期:2017.1.18.

13. 林雁勤, 王楚楚, 张连娣, 陈忠. 一种不均匀场下改善核磁共振氢谱分辨率的方法. 发明专利CN201410187594.1, 公开/公告号CN103941205A. 授权日期:2016.9.14.

14. 林雁勤,韦芝良,陈忠.一种在不均匀磁场下获取一维高分辨核磁共振谱图的方法. 发明专利CN201410024717.X, 公开/公告号CN103744043A. 授权日期:2016.5.11.

15. 林雁勤,林良杰,韦芝良,陈忠. 一种获取消除标量耦合调制的单体素一维定域谱的方法. 发明专利CN103645453B, 公开/公告号CN201310716594.1. 授权日期:2016.3.9.

16. 韦芝良, 黄炳洁, 李灵至, 刘运惜, 王楚楚, 林良杰, 林雁勤, 陈忠. 快速NMR数据处理软件, 计算机软件著作权登记号2014SR126150, 20148.

 

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