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黄玉清

系别:电子科学系

职称:教授,博导

邮箱:yqhuangw(AT)xmu.edu.cn

联系方式:0592-2183301

办公地点:厦门大学翔安校区文宣楼B409-4

个人简历:

学历:

厦门大学理学学士,物理学专业,2002.09 ~ 2006.07

厦门大学理学博士,无线电物理专业,2006.09 ~ 2011.07

美国罗切斯特大学,国家公派留学联合培养,2009.10 ~ 2010.10


研究方向:

磁共振波谱新技术开发及应用、生物医学应用


主讲课程:

物联网技术(本科生课)

数字信号处理实验(本科生课)

核磁共振技术前沿(本科课程,合上)

磁共振成像实验(研究生课)

磁共振新技术与应用(研究生)


学术兼职:


成果奖励:

1.入选福建省“高校杰出青年科研人才培育计划”(2018)

2.入选厦门市知识产权局技术调查官(2022

3.入选2021年福建省高层次人才C类(2021

4.入选2021年厦门市高层次人才C类(2021

5.第十六届中国研究生电子设计竞赛,华东赛区技术赛一等奖1项及商业赛一等奖1项,指导老师(2021

6.E.K. Zavoisky Stipend Award, 国际医学磁共振成像会议(ISMRM)(2020

7.厦门大学中国银行奖教金(2019)

8.E.K. Zavoisky Stipend Award, 国际医学磁共振成像会议(ISMRM)(2018)

9.福建省科学技术进步奖三等奖(个人排名第三)(2017

10.厦门市科学技术进步奖二等奖(个人排名第七)(2017

11.厦门大学中国工商银行奖教金(2016)


课题项目:

1. 基于核自旋单重态的高分辨核磁共振波谱新方法及应用,国家自然科学基金(面上)项目,2023.01-2026.12,主持

2. 基于时空编码和纯化学位移的核磁共振扩散排序谱新方法及其应用,国家自然科学基金(面上)项目,2020.01-2024.12,主持

3. 快速实现具有扩散和弛豫维的广义高分辨核磁共振多维谱新方法及其应用,国家自然科学基金(面上)项目,2017.01-2020.12,主持

4. 新型便携式高分辨率高灵敏度核磁共振谱仪关键技术研发福建省科技计划工业引导性重点项目2017.04-2020.03,主持

5. 小型和微型核磁共振波谱仪关键技术的研究中央高校基本业务费项目2018.01-2020.12,主持

6. 细胞水平上的核磁共振成像新对比度机制的研究及应用,国家自然科学基金(青年)项目,2013.01-2015.12,主持

7. 核磁共振波谱仪的研制及工程化开发:课题三高性能核磁共振探头设计及创新应用方法开发”(课题编号:2022YFF0707003),国家重点研发计划(基础科研条件与重大科学仪器设备研发),经费427.24万,2022.11-2025.4,第二参与者。


代表作:

发表论文(*为通讯作者)

[1] Chen B#, Wu LB#, Cui XH, Lin EP, Cao SH, Zhan HL, *Huang YQ, *Yang Y, *Chen Z, 2023, High-quality Reconstruction for Laplace NMR based on Deep Learning, Analytical Chemistry, 95, 11596-11602.

[2] Zhan HL, Gao CY, Huang CD, Lin XQ, *Huang YQ, *Chen Z, 2023, Efficient determination of scalar coupling networks by band selective decoupled 2D NMR spectroscopy, Analytica Chimica Acta, 1277, 341682.

[3] Huang CD, Lin XQ, Chen B, Feng XZ, Li H, Chen YL, *Huang YQ, *Chen Z, 2023, Targeted probing of compositions and structures for complex sample analyses by singlet-filtered correlation NMR technique, IEEE Transactions on Instrumentation and Measurement, 72, 6504411.

[4] Zhan HL, Hao MY, Lin EP, Zheng ZY, Huang CD, Cai SH, *Cao SH, *Huang YQ, Chen Z, 2023. A pure shift based NMR method for in-phase three-dimensional diffusion-ordered spectroscopy, Analytical Chemistry, 95, 1002-1007.

[5] Huang CD, Peng Y, Lin EP, Ni ZK, Lin XQ, Zhan HL, *Huang YQ, *Chen Z, 2022. An Adaptable Singlet-filtered Nuclear Magnetic Resonance Spectroscopy for Chemical and Biological Applications, Analytical Chemistry, 94, 4201-4208.

[6] Lin XQ, Du SJ, Huang CD, Ni ZK, Lin EP, Chen B, Chen YL, *Huang YQ, *Chen Z, 2022. High-resolution Diffusion-order NMR spectroscopy in inhomogeneous magnetic fields via intermolecular zero-quantum coherences, Analytica Chimica Acta, 1197, 339508.

[7] Lin EP, Bai ZM, Yuan YF, Chen ZW, *Yang Y, *Huang YQ, *Chen Z, 2021, A General Reconstruction Method for Multidimensional Sparse Sampling Nuclear Magnetic Resonance Spectroscopy, The Journal of Physical Chemistry Letters, 12, 10622-10630.

[8] Zhan HL, Huang CD, Gao CY, Lin EP, *Huang YQ, *Chen Z, 2021, Simultaneous determination of multiple coupling networks by high-resolution 2D J-edited NMR spectroscopy, Analytica Chimica ACTA, 1185, 339055.

[9] Zhan HL, Zhan FQ, Gao CY, Lin EP, Huang CD, Lin XQ, *Huang YQ, *Chen Z, 2021, Multiplet analysis by strong-coupling-artifact-suppression 2D J-resolved NMR spectroscopy, Journal of Chemical Physics, 155, 034202.

[10] Lin EP, Telkki VV, Lin XQ, Huang CD, Zhan HL, *Yang Y, *Huang YQ, *Chen Z, 2021, High-resolution Reconstruction for Multidimensional Laplace NMR, The Journal of Physical Chemistry Letters, 12, 5085-5090.

[11] Zhan HL, *Huang YQ, *Chen Z, 2021, An Orthogonal-Pattern Absorption-Mode 2D J-Resolved NMR Spectroscopy for Analyses on Complex Samples, IEEE Transactions on Instrumentation and Measurement, 70, 6004509.

[12] Zhan HL, Hao MY, Feng Y, Cao SH, Ni ZK, *Huang YQ, *Chen Z, 2021, Diffusion Analysis on Complex Mixtures Under Adverse Magnetic Field Conditions by Spatially-Selective Pure Shift Based DOSY, The Journal of Physical Chemistry Letters, 12, 1073-1080.

[13] Zhan HL, *Huang YQ, Wang XC, *Chen Z, 2021, Highly Efficient Determination of Complex NMR Multiplet Structures in Inhomogeneous Magnetic Fields, Analytical Chemistry, 93, 2419-2423.

[14] Xie JY, *You XQ, Huang YQ, Ni ZR, Wang XC, Li XR, Yang CY, Zhang DC, Chen H, *Sun HJ, *Chen Z, 2020, 3D-printed integrative probeheads for magnetic resonance, Nature Communications, 11, 5793.

[15] Lin EP, *Yang Y, *Huang YQ, Chen Z, 2020, High-Resolution Reconstruction for Diffusion-Ordered NMR Spectroscopy, Analytical Chemistry, 92, 634-639.

[16] Huang YQ, Zhan HL, You XQ, Yang Y, Li C, Cai SH, *Chen Z, 2020, A Pure-Shift-based NMR Method for Transverse Relaxation Measurements on Complex Samples, IEEE Transactions on Instrumentation and Measurement, 69, 201-211.

[17] Zhan HL, *Huang YQ, *Chen Z, 2019, High-Resolution Probing of Heterogeneous Samples by Spatially Selective Pure Shift NMR Spectroscopy, The Journal of Physical Chemistry Letters, 10, 7356-7361.

[18] Zhan HL, Lin XQ, Wei ZL, Ye QM, Cai SH, You XQ, *Huang YQ, *Chen Z, 2019. A single-scan inhomogeneity-tolerant NMR method for high-resolution 2D J-resolved spectroscopy, IEEE Transactions on Biomedical Engineering, 66, 1559-1566.

[19] Wang KY, *Huang YQ, Pieter SES, Zhang ZY, Cai SH, *Chen Z, 2018. Single-scan high-resolution 2D J-resolved spectroscopy in inhomogeneous magnetic fields. IEEE Transactions on Biomedical Engineering, 65, 440-448.

[20] Tan CH, *Huang YQ, Feng JH, Li ZS, *Cai SH, 2018. Freshness assessment of intact fish via 2D 1H J-resolved NMR spectroscopy combined with pattern recognition methods, Sensors & Actuators: B, 255, 348-356.

[21] Huang YQ, Cao SH, Yang Y, Cai SH, Zhan HL, Tan CH, Zhang ZY, *Chen Z, 2017. Ultrahigh-resolution NMR spectroscopy for rapid chemical and biological applications in inhomogeneous magnetic fields, Analytical Chemistry, 89, 7115-7122.

[22] Huang YQ, Yang Y, Cai SH, Chen ZW, Zhan HL, Li C, Tan CH, *Chen Z, 2017. General two-dimensional absorption-mode J-resolved NMR spectroscopy, Analytical Chemistry, 89, 12646-12651.

[23] Huang YQ, Lin YY, Cai SH, Yang Y, Sun HJ, *Lin YQ, *Chen Z, 2016. High-resolution nuclear magnetic resonance measurements in inhomogeneous magnetic fields: a fast two-dimensional J-resolved experiment, Journal of Chemical Physics, 144, 104202.

[24] *Huang YQ, Wang KY, Lai WN, Tan CH, Chen S, Cai SH, Chen Z, 2016. A 2D proton J-resolved NMR method for direct measurements on heterogeneous foods, Food Research International, 80, 70-77.

[25] Wang KY, Chen H, Zhang ZY, *Huang YQ, *Chen Z, 2016. Two-dimensional J-resolved NMR analyses of fish and its products via spatially encoded intermolecular double-quantum coherences, Food Analytical Methods, 9, 1502-1511.

[26] Huang YQ, Zhang ZY, Chen H, Feng JH, Cai SH, *Chen Z, 2015. A high-resolution 2D J-resolved NMR detection technique for metabolite analyses of biological samples, Scientific Reports, 5, 8390.

[27] Huang YQ, Zhang ZY, Wang KY, Cai SH, *Chen Z, 2014. HRJCOSY: A three-dimensional NMR method for measuring complex samples in inhomogeneous magnetic fields, Chemical Physics Letters, 609, 21-25.

[28] Huang YQ, Cai SH, Zhang ZY, *Chen Z, 2014. High-resolution two-dimensional J-resolved NMR spectroscopy for biological systems, Biophysical Journal, 106, 2061-2070.


著作

[1] *Chen Z and Huang YQ, 2023. Chapter 16: Fast 2D NMR in Inhomogeneous Magnetic Fields. Fast 2D Solution-state NMR: Concepts and Applications, Royal Society of Chemistry, 476-508.

[2] Chen Z*, Huang YQ, Lin YQ, Cai SH, 2011. Accurate measurements of small J coupling constants. Annual Reports on NMR Spectroscopy, Academic Press, Vol. 72, Chapter 4.

[3] Lin YL, Huang YQ, Cai SH, Chen Z*, 2013. Intermolecular zero quantum coherence in NMR spectroscopy. Annual Reports on NMR Spectroscopy, Academic Press, Vol. 78, Chapter 5.


发明专利

[1] Huang YQ, Chen Z, Gao CY, Zhan HL, Method for acquring NMR phase-sensitive 2D J-resolved spectrum by supressing strong coupling spurious peaks, 授权日期:2023.05.16,美国发明专利,专利号: US11650274B2.

[2] Huang YQ, Zhao C, Radio frequency excitation method and device for magnetic resonance imaging system, 授权日期:2018.02.20,美国发明专利,专利号: US9897676.

[3] 黄玉清高存渊,詹昊霖,陈忠,一种抑制强偶合伪峰的核磁共振相敏二维J分解谱方法,授权日期: 2022.02.16,中国发明专利,专利号: 202110360701.6.

[4] 黄玉清赖伟楠,陈忠,李晨,谭春华,一种应用于不均匀磁场的快速二维J谱方法,授权日期: 2019.11.05,中国发明专利,专利号: 201711041601.7.

[5] 黄玉清李晨,陈忠,赖伟楠,谭春华,一种基于纯化学位移的核磁共振扩散谱方法,授权日期: 2019.04.30,中国发明专利,专利号: ZL201711035089.5.

[6] 黄玉清,陈忠,蔡淑惠,陈帅,一种获得高分辨二维J分解谱的方法,授权日期: 2018.06.29,中国发明专利,专利号: ZL201610397699.9.

[7] 黄玉清,陈忠,谭春华,蔡淑惠,赖伟楠,詹昊霖,李晨,一种获得核磁共振二维相敏J谱的方法,授权日期: 2018.04.10,中国发明专利,专利号: ZL201710051859.9.

[8]黄玉清,陈忠,赖伟楠,谭春华,蔡淑惠,詹昊霖,李晨,一种单体素定域一维纯化学位移核磁共振谱方法,授权日期: 2017.12.19,中国发明专利,专利号: ZL201710044937.2.

[9] 黄玉清,陈忠,谭春华,一种抵抗磁场不均匀的纯化学位移核磁共振谱方法,授权日期: 2017.10.10,中国发明专利,专利号: ZL201610137979.6.

[10] 黄玉清,陈忠,汪凯宇,一种用于任意磁场环境的核磁共振二维扩散排序谱方法,授权日期: 2017.08.29,中国发明专利,专利号: ZL201610139580.1.

[11] 黄玉清,汪凯宇,陈忠,一种用于生物组织的核磁共振检测方法,授权日期: 2017.06.23,中国发明专利,专利号: ZL2015107102123.

[12] 黄玉清, 赵聪. 一种磁共振系统的射频激发方法和装置, 中国发明专利, 授权日期: 2017.02.15,中国发明专利,专利号: ZL201310096478.4.

[13] Huang YQ, Zhao C, Radio frequency excitation method and device for magnetic resonance imaging system, 授权日期: 2016.08.23,韩国发明专利,专利号: 10-1652156.

[14] 黄玉清,陈忠,一种不均匀磁场下获得高分辨率核磁共振三维谱的方法,授权日期: 2016.07.06,中国发明专利,专利号: ZL201410151498.1.

[15] 黄玉清,陈忠,一种不均匀磁场下获得核磁共振二维J分解谱的方法,授权日期: 2016.05.18,中国发明专利, 专利号: ZL201410153283.3.

[16] 黄玉清,陈忠,在不均匀磁场下获得核磁共振二维自旋回波相关谱的方法,授权日期: 2016.01.20,中国发明专利, 专利号: ZL201410022087.2.

[17] 黄玉清,一种扩散张量磁共振成像方法,授权日期: 2015.07.29,中国发明专利,专利号: ZL201210196558.2.


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