簡歷 :
2014.12-至今 山西大學雷射光譜研究所 教授
2009.10-2014.12 山西大學雷射光譜研究所 副教授
2008.06-2011.12 美國萊斯大學 博士後 合作導師:Frank K. Tittel
2007.07-2009.10 山西大學物理電子工程學院 講師
2002.09-2007.07 山西大學物理電子工程學院 獲博士學位 導師:賈鎖堂
1998.09-2002.07 山西大學物理電子工程學院 獲學士學位
近期代表性論文 :
“Recent advances in quartz enhanced photoacoustic sensing” Appl.Phys. Rev. 5, 011106 (2018)
“Ppbv-level ethane detection using quartz-enhanced photoacoustic spectroscopy with a cintinuous-wave room temperature interband cascade laser” Sensors 18, 723 (2018)
“Application of acoustic micro-resonators in quartz-enhanced photoacoustic spectroscopy for trace gas analysis” Chem. Phys. Lett. 691,462-472 (2018)
“Beat frequency quartz-enhanced photoacoustic spectroscopy for fast and calibration-free continuous trace-gas monitoring” Nat. Commun. 8, 15331 (2017)
“Highly sensitive SO2 photoacoustic sensor for SF6 decomposition detection using a compact mW-level diode-pumped solid-state laser emitiing at 303nm” Opt. Express 25, 32581 (2017)
“Ppb-level H2S detection for SF6 decomposition based on a fiber-amplified telecommunication diode laser and a background-gas-induced high-Q photoacoustic cell” Appl. Phys. Lett. 111, 031109 (2017)
“Compact photoacoustic module for methane detection incorporating interband cascadelight emitting device” Opt. Express 25, 16761 (2017)
“Simultaneous dual-gas QEPAS detection based on a fundamental and overtone combined vibration of quartz tuning fork” Appl. Phys. Lett. 110, 121104 (2017)
“Sub-ppb nitrogen dioxide detection with a large linear dynamic rangeby use of a differential photoacoustic cell and a 3.5 W blue multimodediode laser” Sensor. Actuat. B: Chem. 247, 329–335 (2017)
“Double antinode excited quartz-enhanced photoacoustic spectrophone” Appl. Phys. Lett. 110, 021110 (2017)
“Development and field deployment of a mid-infrared methane sensor without pressure control using interband cascade laser absorption spectroscopy,” Sensor. Actuat. B: Chem. 244, 365-372 (2017)
“Quartz–enhanced photoacoustic spectrophones exploiting custom tuning forks: a review” Adv. Phys.: X 2, 169-187 (2016)
“Infrared Dual-Gas CH4/C2H6 Sensor Using Two Continuous-Wave Interband Cascade Lasers” IEEE photonic. Tech. L. 28, 2351-2354 (2016)
“Overtone resonance enhanced single-tube on-beam quartz enhanced photoacoustic spectrophone ” Appl. Phys. Lett. 109, 111103 (2016)
“Compact CH sensor system based on a continuous- wave, low powerconsumption, room temperature interband cascade laser”Appl. Phys. Lett. 108, 011106 (2016)
“Ppb-level mid-infrared ethane detection based on three measurement schemes using a 3.34-μm continuous-wave interband cascade laser” Appl. Phys. B 122, 185 (2016)
“Compact TDLAS based optical sensor for ppb-level ethane detection by use of a 3.34 um room-temperature CW interband cascade laser” Sensor. Actuat. B:Chem. 232, 188–194 (2016)
“Analysis of overtone flexural modes operation in quartz-enhanced photoacoustic spectroscopy” Opt. Express 24, A682-A692 (2016)
“Scattered light modulation cancellation method for sub-ppb-level NO detection in a LD-excited QEPAS system” Opt. Express 24, A752-A761 (2016)
“Compact TDLAS based sensor design using interband cascade lasers for mid-IR trace gas sensing” Opt. Express 24, A528-A535 (2016)
“Single-tube on-beam quartz-enhanced photoacoustic spectroscopy”Opt. Lett.41(5), 978-981 (2016)
“Impact of Humidity on Quartz-Enhanced Photoacoustic Spectroscopy Based CO Detection Using a Near-IR Telecommunication Diode Laser” Sensors 16, 162 (2016)
“Analysis of the electro-elastic properties of custom quartz tuning forks for optoacoustic gas sensing” Sensor. Actuat. B:Chem. 227, 539–546 (2016)
“Mid-infrared dual-gas sensor for simultaneous detection of methane and ethane using a single continuous-wave interband cascade laser” Opt. Express 24, 16973-16985 (2016)
“ Ppb-level formaldehyde detection using a CW room-temperature interband cascade laser and a miniature dense pattern multipass gas cell” Opt. Express 23, 19821-19830 (2015)
“Quartz enhanced photoacoustic H2S gas sensor based on a fiber-amplifier source and a custom tuning fork with large prong spacing” Appl. Phys. Lett. 107, 111104 (2015)
“Quartz-enhanced conductance spectroscopy for nanomechanical analysis of polymer wire” Appl. Phys. Lett.107,221903 (2015)
“Enhanced near-infrared QEPAS sensor for sub-ppm level H2S detection by means of a fiber amplified 1582 nm DFB laser” Sensor. Actuat. B:Chem. 221, 666–672 (2015)
“Position effects of acoustic micro-resonator in quartz enhancedphotoacoustic spectroscopy” Sensor. Actuat. B:Chem. 206, 364–370 (2015)
“Ppb-level QEPAS NO2 sensor by use of electrical modulationcancellation method with a high power blue LED” Sensor. Actuat. B:Chem. 208,173–179 (2015)
“Fiber-Amplifier-Enhanced QEPAS Sensor for Simultaneous Trace Gas Detection of NH and HS” Sensors 15, 26743-26755 (2015)
“Near-IR telecommunication diode laser based double-pass QEPAS sensor for atmospheric CO2 detection” Laser Phys. 25, 125601 (2015)
“Design and Optimization of QTF Chopper for Quartz-Enhanced Photoacoustic Spectroscopy” Int. J. Thermophys. 36, 1289–1296 (2015)
“Optical Detection Technique Using Quartz-Enhanced Photoacoustic Spectrum”Int. J. Thermophys. 36,1297–1304 (2015)
“Multi-Quartz Enhanced Photoacoustic Spectroscopy with Different Acoustic Microresonator Configurations” J. Spectrosc. 2015, 218419 (2015)
“Quartz-enhanced photoacoustic spectroscopy exploiting tuning fork overtone modes” Appl. Phys. Lett. 107, 231102 (2015)
“Compact sound-speed sensor for quartz enhanced photoacoustic spectroscopy based applications” Rev. of Sci. Instrum. 86, 044903 (2015)
“Double acoustic microresonator quartz-enhanced photoacoustic spectroscopy” Opt. Lett. 39:2479-2482 (2014)
“Ultra-sensitive carbon monoxide detection by using EC-QCL based quartz-enhanced photoacoustic spectroscopy” Appl. Phys. B 107:275-283 (2012)
“Compact QEPAS sensor for trace methane and ammonia detection in impure hydrogen.” Appl Phys B107:459-467 (2012)
“Ppb-level detection of nitric oxide using an external cavity quantum cascade laser based QEPAS sensor.” Opt. Express19: 24037-24045 (2011)
"QEPAS spectrophones: design, optimization and performance."Appl Phys B 100: 627-635 (2010)
“Modulation cancellation method for isotope O/O ratio measurements in water” Opt. Express 20:3401-3407 (2012)
"Modulation cancellation method for measurements of small temperature differences in a gas." Optics Letters 36: 460-462 (2011)
"Modulation cancellation method in laser spectroscopy." Appl. Phys. B 103: 735-742 (2011)
"QEPAS for chemical analysis of multi-component gas mixtures." App. Phys. B 101: 649-659 (2010)
"NO trace gas sensor based on quartz enhanced photoacoustic spectroscopy and external cavity quantum cascade laser." App. Phys. B 100: 125-130 (2010)
"QEPAS detector for rapid spectral measurements." App. Phys. B 100: 173-180 (2010)
1.“Recent advances in quartz enhanced photoacoustic sensing” Appl.Phys. Rev. 5, 011106 (2018)
2.“Ppbv-level ethane detection using quartz-enhanced photoacoustic spectroscopy with a cintinuous-wave room temperature interband cascade laser” Sensors 18, 723 (2018)
3.“Application of acoustic micro-resonators in quartz-enhanced photoacoustic spectroscopy for trace gas analysis” Chem. Phys. Lett. 691,462-472 (2018)
4.“Beat frequency quartz-enhanced photoacoustic spectroscopy for fast and calibration-free continuous trace-gas monitoring” Nat. Commun. 8, 15331 (2017)
5.“Highly sensitive SO2 photoacoustic sensor for SF6 decomposition detection using a compact mW-level diode-pumped solid-state laser emitiing at 303nm” Opt. Express 25, 32581 (2017)
6.“Ppb-level H2S detection for SF6 decomposition based on a fiber-amplified telecommunication diode laser and a background-gas-induced high-Q photoacoustic cell” Appl. Phys. Lett. 111, 031109 (2017)
7.“Compact photoacoustic module for methane detection incorporating interband cascadelight emitting device” Opt. Express 25, 16761 (2017)
8.“Simultaneous dual-gas QEPAS detection based on a fundamental and overtone combined vibration of quartz tuning fork” Appl. Phys. Lett. 110, 121104 (2017)
9.“Sub-ppb nitrogen dioxide detection with a large linear dynamic rangeby use of a differential photoacoustic cell and a 3.5 W blue multimodediode laser” Sensor. Actuat. B: Chem. 247, 329–335 (2017)
10.“Double antinode excited quartz-enhanced photoacoustic spectrophone” Appl. Phys. Lett. 110, 021110 (2017)
11.“Development and field deployment of a mid-infrared methane sensor without pressure control using interband cascade laser absorption spectroscopy,” Sensor. Actuat. B: Chem. 244, 365-372 (2017)
12.“Quartz–enhanced photoacoustic spectrophones exploiting custom tuning forks: a review” Adv. Phys.: X 2, 169-187 (2016)
13.“Infrared Dual-Gas CH4/C2H6 Sensor Using Two Continuous-Wave Interband Cascade Lasers” IEEE photonic. Tech. L. 28, 2351-2354 (2016)
14.“Overtone resonance enhanced single-tube on-beam quartz enhanced photoacoustic spectrophone ” Appl. Phys. Lett. 109, 111103 (2016)
15.“Compact CH sensor system based on a continuous- wave, low powerconsumption, room temperature interband cascade laser”Appl. Phys. Lett. 108, 011106 (2016)
16.“Ppb-level mid-infrared ethane detection based on three measurement schemes using a 3.34-μm continuous-wave interband cascade laser” Appl. Phys. B 122, 185 (2016)
17.“Compact TDLAS based optical sensor for ppb-level ethane detection by use of a 3.34 um room-temperature CW interband cascade laser” Sensor. Actuat. B:Chem. 232, 188–194 (2016)
18.“Analysis of overtone flexural modes operation in quartz-enhanced photoacoustic spectroscopy” Opt. Express 24, A682-A692 (2016)
19.“Scattered light modulation cancellation method for sub-ppb-level NO detection in a LD-excited QEPAS system” Opt. Express 24, A752-A761 (2016)
20.“Compact TDLAS based sensor design using interband cascade lasers for mid-IR trace gas sensing” Opt. Express 24, A528-A535 (2016)
21.“Single-tube on-beam quartz-enhanced photoacoustic spectroscopy”Opt. Lett.41(5), 978-981 (2016)
22.“Impact of Humidity on Quartz-Enhanced Photoacoustic Spectroscopy Based CO Detection Using a Near-IR Telecommunication Diode Laser” Sensors 16, 162 (2016)
23.“Analysis of the electro-elastic properties of custom quartz tuning forks for optoacoustic gas sensing” Sensor. Actuat. B:Chem. 227, 539–546 (2016)
24.“Mid-infrared dual-gas sensor for simultaneous detection of methane and ethane using a single continuous-wave interband cascade laser” Opt. Express 24, 16973-16985 (2016)
25.“ Ppb-level formaldehyde detection using a CW room-temperature interband cascade laser and a miniature dense pattern multipass gas cell” Opt. Express 23, 19821-19830 (2015)
26.“Quartz enhanced photoacoustic H2S gas sensor based on a fiber-amplifier source and a custom tuning fork with large prong spacing” Appl. Phys. Lett. 107, 111104 (2015)
27.“Quartz-enhanced conductance spectroscopy for nanomechanical analysis of polymer wire” Appl. Phys. Lett.107,221903 (2015)
28.“Enhanced near-infrared QEPAS sensor for sub-ppm level H2S detection by means of a fiber amplified 1582 nm DFB laser” Sensor. Actuat. B:Chem. 221, 666–672 (2015)
29.“Position effects of acoustic micro-resonator in quartz enhancedphotoacoustic spectroscopy” Sensor. Actuat. B:Chem. 206, 364–370 (2015)
30.“Ppb-level QEPAS NO2 sensor by use of electrical modulationcancellation method with a high power blue LED” Sensor. Actuat. B:Chem. 208,173–179 (2015)
31.“Fiber-Amplifier-Enhanced QEPAS Sensor for Simultaneous Trace Gas Detection of NH and HS” Sensors 15, 26743-26755 (2015)
32.“Near-IR telecommunication diode laser based double-pass QEPAS sensor for atmospheric CO2 detection” Laser Phys. 25, 125601 (2015)
33.“Design and Optimization of QTF Chopper for Quartz-Enhanced Photoacoustic Spectroscopy” Int. J. Thermophys. 36, 1289–1296 (2015)
34.“Optical Detection Technique Using Quartz-Enhanced Photoacoustic Spectrum”Int. J. Thermophys. 36,1297–1304 (2015)
35.“Multi-Quartz Enhanced Photoacoustic Spectroscopy with Different Acoustic Microresonator Configurations” J. Spectrosc. 2015, 218419 (2015)
36.“Quartz-enhanced photoacoustic spectroscopy exploiting tuning fork overtone modes” Appl. Phys. Lett. 107, 231102 (2015)
37.“Compact sound-speed sensor for quartz enhanced photoacoustic spectroscopy based applications” Rev. of Sci. Instrum. 86, 044903 (2015)
38.“Double acoustic microresonator quartz-enhanced photoacoustic spectroscopy” Opt. Lett. 39:2479-2482 (2014)
39.“Ultra-sensitive carbon monoxide detection by using EC-QCL based quartz-enhanced photoacoustic spectroscopy” Appl. Phys. B 107:275-283 (2012)
40.“Compact QEPAS sensor for trace methane and ammonia detection in impure hydrogen.” Appl Phys B107:459-467 (2012)
41.“Ppb-level detection of nitric oxide using an external cavity quantum cascade laser based QEPAS sensor.” Opt. Express19: 24037-24045 (2011)
42."QEPAS spectrophones: design, optimization and performance."Appl Phys B 100: 627-635 (2010)
43.20
44."Modulation cancellation method for measurements of small temperature differences in a gas." Optics Letters 36: 460-462 (2011)
45."Modulation cancellation method in laser spectroscopy." Appl. Phys. B 103: 735-742 (2011)
46."QEPAS for chemical analysis of multi-component gas mixtures." App. Phys. B 101: 649-659 (2010)
47."NO trace gas sensor based on quartz enhanced photoacoustic spectroscopy and external cavity quantum cascade laser." App. Phys. B 100: 125-130 (2010)
48."QEPAS detector for rapid spectral measurements." App. Phys. B 100: 173-180 (2010)