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Journal of Atmospheric and Environmental Optics, Volume. 19, Issue 3, 265(2024)

Progress of detection technology of nitrogen dioxide and organic nitrates

TONG Jinzhao1,2, LIN Chuan2, HU Renzhi2、*, XIE Pinhua1,2,3,4, WU Tao2, WANG Jiawei1,2, and CHEN Liang1,2
Author Affiliations
  • 1School of Environmental Science and Optoelectronic Technology, University of Science and Technology of China,Hefei 230026, China
  • 2Key Laboratory of Environmental Optics and Technology, Anhui Institute of Optics and Fine Mechanics, HFIPS,Chinese Academy of Sciences, Hefei 230031, China
  • 3Innovation Center for Excellence in Regional Atmospheric Environment, Institute of Urban Environment,Chinese Academy of Sciences, Xiamen 361000, China
  • 4University of Chinese Academy of Sciences, Beijing 100049, China
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    AbstractGet PDF(in Chinese)
    Figures&Tables (16)
    Equations (0)
    References (121)
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    Paper Information
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    Figures & Tables(16)
    Schematic of the chemical reaction of NO2 in the atmosphere

    Fig. 1. Schematic of the chemical reaction of NO2 in the atmosphere

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    Schematic of the chemical reaction of ONs in the atmosphere

    Fig. 2. Schematic of the chemical reaction of ONs in the atmosphere

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    Schematic of the Chemiluminescence nitrogen oxide analyzer[29]

    Fig. 3. Schematic of the Chemiluminescence nitrogen oxide analyzer[29]

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    Schematic of the Spectrophotometry NOx system[17]

    Fig. 4. Schematic of the Spectrophotometry NOx system[17]

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    Schematic of the DOAS system[67]

    Fig. 5. Schematic of the DOAS system[67]

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    Schematic of the LIF system[68]

    Fig. 6. Schematic of the LIF system[68]

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    Schematic of the TDLAS system[22]

    Fig. 7. Schematic of the TDLAS system[22]

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    Schematic of the CAPS system[80]

    Fig. 8. Schematic of the CAPS system[80]

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    Schematic of the CRDS system[88]

    Fig. 9. Schematic of the CRDS system[88]

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    Schematic of the IBBCEAS system[90]

    Fig. 10. Schematic of the IBBCEAS system[90]

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    Schematics of the experimental set-ups installed around the SAPHIR chamber[34]

    Fig. 11. Schematics of the experimental set-ups installed around the SAPHIR chamber[34]

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    Schematics of the experimental set-ups installed around the CESAM chamber[100]

    Fig. 12. Schematics of the experimental set-ups installed around the CESAM chamber[100]

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    • Table 1. The technology of measurement of NO2 and the corresponding research groups

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      Table 1. The technology of measurement of NO2 and the corresponding research groups

      TechnologyResearch GroupTarget gasAccuracy/%

      Limit of

      detection/10-9

      Time

      resolution

      		References
      CL

      Eco Physics,

      FRA

      		NO2, NO±7.00.013 min[34]
      Thermo Electron, USANO2, NO0.401 min[31]
      Thermo Fisher 42i, USANO2, NO±7.00.052 min[101]

      Eco Physics,

      FRA

      		NO2, NO±10.00.0190 s[102]
      Thermo Fisher 42c, USANO2, NO±7.00.401 min[101]

      Teledyne API,

      USA

      		NO2, NO±6.00.451 min[29]

      Eco Physics,

      FRA

      		NO2, NO±7.00.0541 min[23]
      Air Quality Design, UKNO2, NO±6.00.151 min[29]
      SPInstitute of Chemical Research, ChinaNO2±3.418.015 min[40]

      Research Center for Eco-Environmental

      Sciences, China

      		NO25.0024 h[37]
      DOAS

      Kern for schungsanlage Juelich GmbH,

      Germany

      		NO2, NO3±10.00.08[48]
      Korea Research Institute of Standards and Science, KoreaNO2±8.00.50[51]
      Anhui Institute of Optics and Fine Mechanics, ChinaNO2±6.00.1430 s[55]
      Kwangju Inst Sci & Technol, KoreaNO2±10.00.613 min[103]
      LIFUniversity of California, USANO2±5.00.01510 s[10]
      Portland State University, USANO20.4520 s[8]
      Pennsylvania State University, USANO2±15.00.282.5 min[104]

      University

      of California, USA

      		NO20.1451 min[105]
      The University of Tokyo, JapanNO20.0941 min[23]
      Nagoya University, JapanNO2±14.00.1460 s[68]
      Portland State University, USANO22.0060 s[72]

      Nagoya University,

      Japan

      		NO20.0310 s[106]
      Universita' degli studi di L'Aquila, ItalyNO20.0160 s[107]

      Harvard University,

      USA

      		NO2±10.00.0460 s[108]

      Nagoya University,

      Japan

      		NO29.8060 s[109]
      Environmental Protection Agency, USANO25.0090 s[70]
      University of California, USANO2±5.00.01510 s[10]
      Osaka Prefecture University, JapanNO2±10.07.0060 s[73]
      University of California, USANO2±150.0910 s[15]
      TDLASConcord, Ontario, CanadaNO20.0253 min[76]
      State University of New York, USANO2±5.00.031 min[22]
      CAPSUnisearch Associates, CanadaNO2±150.155 min[75]
      Center for Sensor Systems and Technology, USANO2±140.3010 s[80]
      Institute of Atmospheric Physics, ChinaNO20.04660 s[32]
      Center for Sensor Systems and Technology, USANO2±10.00.0610 s[81]

      Peking university,

      China

      		NO20.1960 s[1]
      University of Manchester, UKNO2±4.00.0551 s[82]
      CEAS

      Anhui Institute of Optics and Fine

      Mechanics, China

      		NO20.0952 s[97]
      Anhui University, ChinaNO2±4.05.30360 s[110]

      Anhui Institute of Optics and Fine

      Mechanics, China

      		NO2±4.00.04430 s[94]

      Anhui Institute of Optics and Fine

      Mechanics, China

      		NO20.2520 s[93]
      University of Colorado, USANO2±5.00.085 s[96]

      Anhui Institute of Optics and Fine

      Mechanics, China

      		NO2± 6.03.1080 s[111]
      Nanchang Hangkong University, ChinaNO2±5.02.00120 s[95]
      University of Manchester, UKNO20.2480 s[91]

      Anhui Institute of Optics and Fine

      Mechanics, China

      		NO2±9.00.3430 s[98]

      CRDS

      		University of Colorado, USANO2, NO±5.00.0221 s[2]

      Anhui Institute of Optics and Fine

      Mechanics, China

      		NO2±4.50.0661 s[86]
      Earth System Research Laboratory, USANO2±4.00.041 s[20]
      Adelphi University, USANO21.201 s[84]
      University of Colorado, USANO2, NO±3.00.031 s[85]
      South China University of Technology, ChinaNO20.1510 s[112]

    • Table 2. The technology of ONs and the corresponding research groups

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      Table 2. The technology of ONs and the corresponding research groups

      MethodResearch GroupTarget gas

      Limit of

      detection/10-12

      		Reference
      GC-ECD

      National Center for

      Atmospheric Research, USA

      		PANs[14]
      TD-LIFUniversity of California, Berkeley, USAPNs, ANs, HNs, HNO3NO2: 90[15]

      University of California,

      USA

      		NO2, ONsON: 45[25]
      Universita' degli studi di L'Aquila, ItalyNO2, PNs, ANs, HNO3

      NO2: 9.8, PNs: 18.4

      ANs: 28.1, HNO3: 49.7

      		[7]
      University of California, Berkeley, USANO2, PNsNO2: 70[114]
      TD-CAPSOsaka Prefecture University, JapanNO2, PNs, ONs

      PNs: 21

      ONs: 21

      		[13]
      TD-CIMS

      National Center for Atmospheric Research,

      USA

      		PNs、N2O5

      PAN: 7×, PPN: 4

      PiBN: 3, N2O5: 12

      		[26]
      TD-CEAS

      Peking University,

      China

      		NO2, PNs, ANsNO2: 97[11]
      TD-CRDSDivision of Atmospheric Chemistry, GermanyNO2, PNs, ANsNO2: 20[117]
      Anhui Institute of Optics and Fine Mechanics, ChinaNO2, ONsNO2: 90[118]

      University of Calgary,

      Canada

      		NO2, PANNO2: 20[27]
      Max-Planck-Institut für Chemie, GermanyNO2, NO3, N2O5, PNs, ANs

      NO2: 25

      PNs: 40

      ANs: 45

      		[116]

      University of Calgary,

      Canada

      		ANs, PNs

      ANs: 100,

      PNs: 100

      		[12]

      Reed College, Portland,

      USA

      		NO2, PNs, ANs, HNO3

      NO2: 480

      PNs: 660

      ANs: 660, HNO3: 660

      		[119]

    • Table 3. The instrument comparison of measurements in chamber SAPHIR

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      Table 3. The instrument comparison of measurements in chamber SAPHIR

      Research GroupMethodPosition

      Accuracy

      (1σ)/%

      Limit of

      detection/10-12

      		Time Resolution

      Correlation

      (R2)

      Eco Physics,

      FR

      		PC-CLDUnderneath the chamber±7103 min

      Berkeley,

      USA

      		LIFBelow the chamber±510010 s0.99

      NOAA,

      USA

      		CRDSUnderneath the chamber±6801 s0.96
      University of Leicester, UKBBCRDSBelow the chamber±111 min0.93
      University College Cork, IrelandIBBCEAS

      Inside

      chamber

      		±186005 s0.93

    • Table 4. The instrument comparison of measurements in chamber CESAM

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      Table 4. The instrument comparison of measurements in chamber CESAM

      Research GroupMethodAccuracy/%Limit of detectionTime Resolution/s

      Correlation

      (R2)

      Université du Littoral

      Côté d'Opale, FR

      		IBBCEAS±8160 × 10-12120

      University of York,

      UK

      		FTIR±105 × 10-93000.93

      HORIBA APNA,

      JPN

      		CL±10400 × 10-12600.99
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    Jinzhao TONG, Chuan LIN, Renzhi HU, Pinhua XIE, Tao WU, Jiawei WANG, Liang CHEN. Progress of detection technology of nitrogen dioxide and organic nitrates[J]. Journal of Atmospheric and Environmental Optics, 2024, 19(3): 265

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    Paper Information

    Category:

    Received: Apr. 8, 2022

    Accepted: --

    Published Online: Jul. 17, 2024

    The Author Email: HU Renzhi (rzhu@aiofm.ac.cn)

    DOI:10.3969/j.issn.1673-6141.2024.03.001

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology