暨南大学理工学院导师教师师资介绍简介-郑华丹

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个人信息

姓名：郑华丹
部门：理工学院
直属机构：光电工程系
性别：男
--> 职务：
职称：讲师
学位：博士
毕业院校：山西大学
联系电话： **
电子邮箱： zhenghuadan@jnu.edu.cn
办公地址：暨南大学蒙明伟理工楼403室
通讯地址：
邮编： 510000
传真：
荣誉奖励：

联系方式

个人简介

郑华丹，男，1988年6月生，2012年7月本科毕业于山西大学应用物理学专业，同年9月进入山西大学量子光学与光量子器件国家重点实验室硕博连读，主要从事激光光谱技术用于痕量气体检测的理论与实验研究。2016年8月赴美国莱斯大学（Rice University）进行博士联合培养, 师从诺贝尔奖获得者Robert F Curl教授以及国际知名激光技术专家Frank K Tittel教授。共发表学术及会议论文20余篇，其中包括Applied Physics Letters、Sensors and Actuators B、Optics Letters、Optics Express、Nature子刊，Advance in Physics等知名刊物，其中第一作者SCI论文11篇；申请国家发明专利6项；获国家级竞赛奖2项，省级竞赛奖1项，主持基金项目1项。作为美国光学学会（OSA）会员，担任Journal of Modern and Applied Physics杂志编辑，《光学技术》杂志青年编委，兼任Optics Communications、Nanoscale等期刊审稿人。2017年受邀为Chemical Physics Letters 50周年专刊撰写封面评论文章，同年被推荐为中国光学学会王大珩光学奖候选人。

学习经历

联合培养博士(2016/8-2017/9) 单位：美国莱斯大学（Rice University）
研究领域：仪器科学与技术、激光光谱技术
硕士—博士(2012/9—2016/8) 单位：山西大学量子光学与光量子器件国家重点实验室
研究领域: 光学传感、光声光谱、痕量气体检测
本科(2008/9—2012/7)单位: 山西大学物理电子工程学院
专业：应用物理学

工作经历

研究方向

主要论文

1.H. Zheng, L. Dong, H. Wu, X. Yin, L. Xiao, S. Jia, R. F. Curl, F. K. Tittel, “Application of acoustic micro-resonators in quartz-enhanced photoacoustic spectroscopy for trace gas analysis”, Chemical Physics Letters691, 462-472, 2018. (封面)
2.H. Zheng, L. Dong, X. Yin, X. Liu, H. Wu, L. Zhang, W. Ma, W. Yin, S. Jia, “Ppb-level QEPAS NO₂sensor by use of electrical modulation cancellation method with a high power blue LED”, Sensors and Actuators B: Chemical208, 173–179, 2015. (中科院JCR分区，1区，IF 4.232) (ESI前3% 高引论文)
3.H. Zheng,M. Lou, L. Dong, H. Wu, W. Ye, X. Yin, C. Kim, M. Kim, W. W. Bewley, C. D. Merritt, C. L. Canedy, M. V. Warren, I. Vurgaftman, J. R. Meyer, F. K. Tittel, “Compact photoacoustic module for methane detection incorporating interband cascade light emitting device”, Optics Express 25, 16761-16770, 2017. (中科院JCR分区，2区，IF 3.387)
4.H. Zheng, L. Dong, P. Patimisco, H. Wu, A. Sampaolo, X. Yin, S. Li, W. Ma, L. Zhang, W. Yin, L. Xiao, V. Spagnolo, S. Jia, F. K Tittel, “Double antinode excited quartz-enhanced photoacoustic spectrophone”, Applied Physics Letters110, 021110, 2017. (中科院JCR分区，2区，IF 3.320)
5.H. Zheng, L. Dong, A. Sampaolo, P. Patimisco, W. Ma, L. Zhang, W. Yin, L. Xiao, V. Spagnolo, S. Jia, F. K Tittel, “Overtone resonance enhanced single-tube on-beam quartz enhanced photoacoustic spectrophone”, Applied Physics Letters 109, 111103, 2016.(中科院JCR分区，2区，IF 3.302)
6.H. Zheng, L. Dong, A. Sampaolo, H. Wu, P. Patimisco, X. Yin, W. Ma, L. Zhang, W. Yin, V. Spagnolo, S. Jia, F. K. Tittel, “Single-tube on-beam quartz enhanced photoacoustic spectroscopy”, Optics Letters41, 978-981, 2016.(中科院JCR分区，2区，IF 3.285)
7.H. Zheng, L. Dong, Y. Ma, H. Wu, X. Liu, X. Yin, L. Zhang, W. Ma, W. Yin, L. Xiao, S. Jia, “Scattered light modulation cancellation method for sub-ppb-level NO₂detection in a LD-excited QEPAS system”, Optics Express24, A752-A761, 2016.(中科院JCR分区，2区，IF 3. 520)
8.H. Zheng, X. Yin, G. Zhang, L. Dong, H. Wu, X. Liu, W. Ma, L. Zhang, W. Yin, L. Xiao, S. Jia, F.K. Tittel, “Quartz-enhanced conductance spectroscopy for nanomechanical analysis of polymer wire”, Applied Physics Letters107, 221903, 2015.(中科院JCR分区，2区，IF 3. 718)
9.H. Zheng,X. Yin, L. Dong, H. Wu, X. Liu, W. Ma, L. Zhang, W. Yin, S. Jia, “Multi-quartz enhanced photoacoustic spectroscopy with different acoustic microresonator configurations”, Journal of Spectroscopy25, 218413，2015.(中科院JCR分区，4区, 特邀稿件)
10.H. Zheng, L. Dong, X. Liu, Y. Liu, H. Wu, L. Zhang, W. Ma, W. Yin, S. Jia, “Near-IR telecommunication diode laser based double-pass QEPAS sensor for atmospheric CO₂detection”, Laser Physics25, 125601, 2015.(中科院JCR分区，3区，IF 2.392)
11.H. Zheng, L. Dong, Y. Liu, H. Wu, L. Zhang, W. Ma, W. Yin, S. Jia, “Experimental Research on Optimization of QEPAS Based Spectrophone”, Spectroscopy and Spectral Analysis33, 3187-3191, 2012.(中科院JCR分区，4区)
12.P. Patimisco, A. Sampaolo, H. Zheng, L. Dong, F. K. Tittel, V. Spagnolo, “Quartz–enhanced photoacoustic spectrophones exploiting custom tuning forks: a review”, Advances in Physics: X 2,169-187, 2017.
13.H. Wu, L. Dong, H. Zheng, Y. Yu, W. Ma, L. Zhang, W. Yin, L. Xiao, S. Jia, F. K Tittel, “Beat frequency quartz-enhanced photoacoustic spectroscopy for fast and calibration-free continuous trace-gas monitoring”, Nature Communications 8, 15331, 2017.
14.A. Sampaolo, P. Patimisco, A. Gluszek, A. Hudzikowski, M. Giglio, H. Zheng, V. Spagnolo, “Low power consumption quartz-enhanced photoacoustic gas sensor employing a quantum cascade laser in pulsed operation”, Proceedings of SPIE 10111, 2017.
15.M. Giglio, A. Sampaolo, P. Patimisco, H. Zheng, H. Wu, L. Dong, V. Spagnolo, “Single-tube on beam quartz-enhanced photoacoustic spectrophones exploiting a custom quartz tuning fork operating in the overtone mode, Proceedings of SPIE 10111, 2017.
16.X. Yin, L. Dong, H. Wu, H. Zheng, W. Ma, L. Zhang, W. Yin, S. Jia, F. K. Tittel, “Sub-ppb nitrogen dioxide detection with a large linear dynamic range by use of a differential photoacoustic cell and a 3.5 W blue multimode diode laser”, Sensors and Actuators B: Chemical 247, 329-335 2017.
17.H. Wu, X. Yin, L. Dong, K. Pei, A. Sampaolo, P. Patimisco, H. Zheng, W. Ma, L. Zhang, W. Yin, “Simultaneous dual-gas QEPAS detection based on a fundamental and overtone combined vibration of quartz tuning fork”, Applied Physics Letters 110, 121104 2017.
18.X. Yin, L. Dong, H. Zheng, X. Liu, H. Wu, Y. Yang, W. Ma, L. Zhang, W. Yin, L. Xiao, “Impact of humidity on quartz-enhanced photoacoustic spectroscopy based CO detection using a near-IR telecommunication diode laser”, Sensors 16, 162 2016.
19.H. Wu, A. Sampaolo, L. Dong, P. Patimisco, X. Liu, H. Zheng, X. Yin, W. Ma,; L. Zhang,.W. Yin, “Quartz enhanced photoacoustic H₂S gas sensor based on a fiber-amplifier source and a custom tuning fork with large prong spacing”, Applied Physics Letters 107,111104 2015.
20.L. Dong, H. Wu, H. Zheng, Y. Liu, X. Liu, W. Jiang, L. Zhang, W. Ma, W. Ren, W. Yin, “Double acoustic microresonator quartz-enhanced photoacoustic spectroscopy” Optics Letters 39, 2479-2482, 2014.
21.H. Wu, L. Dong, H. Zheng, X. Liu, X. Yin, W. Ma, L. Zhang, W. Yin, S. Jia, F. K; Tittel, “Enhanced near-infrared QEPAS sensor for sub-ppm level H₂S detection by means of a fiber amplified 1582nm DFB laser”, Sensors and Actuators B: Chemical 221, 666-672, 2015.
22.H. Wu, L. Dong, X. Liu, H. Zheng, X. Yin, W. Ma, L. Zhang, W. Yin, S. Jia, “Fiber-amplifier-enhanced QEPAS sensor for simultaneous trace gas detection of NH₃and H₂S”, Sensors 15, 26743-26755, 2015.
23.H. Wu, D. Zhang, L. Dong, H. Zheng, Y. Liu, W. Yin, W. Ma, L. Zhang, S. Jia, “Optical detection technique using quartz-enhanced photoacoustic spectrum”, International Journal of Thermophysics 36, 1297-1304 2015.
24.L. Dong, Y. Liu, H. Zheng, X. Liu, H. Wu, W. Ma, L. Zhang, W. Yin, S. Jia, “Design and optimization of QTF chopper for quartz-enhanced photoacoustic spectroscopy”, International Journal of Thermophysics 36, 1289-1296 2015.
25.H. Wu, L. Dong, H. Zheng, Y. Liu, W. Ma, L. Zhang, W. Wang, Q. Zhu, W. Yin, S. Jia, “Purity analysis of helium using quartz-enhanced photoacoustic spectroscopy with two non-resonant micro-tubes” Acta Phys. Sin. 62, 070701 2013.
26.Y. Liu, L. Dong, H. Wu, H. Zheng, W. Ma, L. Zhang, W. Yin, S. Jia, “All optical quartz-enhanced photoacoustic spectroscopy”, Acta Phys. Sin. 62, 220701 2013.