본 논문은 주요 폭발물 탐지 기술에 대한 원리, 장단점 및 향후 필요한 연구 분야에 대한 총설이다. 폭발물 탐지 기술은 분광학적 방법(spectroscopic methods), 감지기 기술(sensor techniques), 후각 감지기(olfactory type sensors)로 분류할 수 있다. 이러한 탐지 기술은 많은 발전이 있었지만 폭발물 탐지를 위한 판별성, 휴대성, 감도에 관한 연구 가능성이 높은 것으로 보인다.

This paper reviews the principles, advantages, and disadvantages of main explosives detection technologies, as well as research areas needed in the future. Explosives detection technology can be classified into spectroscopic methods, sensor techniques, and olfactory type sensors. There have been advances in explosives detection technology, however studies on discriminatory, portability, and sensitivity for explosives detection still remained competitive.

1 이원주 ; 이기영, "전기화학적 방법을 통한 폭발물 검출 연구동향" 한국공업화학회 30 (30): 399-407, 2019

2 G. Shi, "{MSU/PDDA}n LBL assembled modified sensor for electrochemical detection of ultratrace explosive nitroaromatic compounds" 9 : 1719-1724, 2007

3 M. R. Leahy-Hoppa, "Wideband terahertz spectroscopy of explosives" 434 : 227-230, 2007

4 S. J. Toal, "Visual detection of trace nitroaromatic explosive residue using photoluminescent metallole-containing polymers" 52 : 79-83, 2007

5 L. C. Pacheco-Londono, "Vibrational spectroscopy standoffdetection of explosives" 395 : 323-335, 2009

6 R. B. Cody, "Versatile new ion source for the analysis of materials in open air under ambient conditions" 77 : 2297-2302, 2005

7 T. Caron, "Ultra trace detection of explosives in air: development of a portable fluorescent detector" 81 : 543-548, 2010

8 J. Otto, "Training rats to search and alert on contraband odors" 77 : 217-232, 2002

9 M. G. Blain, "Towards the hand-held mass spectrometer:design considerations, simulation, and fabrication of micrometerscaled cylindrical ion traps" 236 : 91-104, 2004

10 S. J. Peppernick, "Towards comprehending the superatomic state of matter" 489 : 1-11, 2010

11 T. Lo, "The very far-infrared spectra of energetic materials and possible confusion materials using terahertz pulsed spectroscopy" 42 : 243-248, 2006

12 K. Furton, "The scientific foundation and efficacy of the use of canines as chemical detectors for explosives" 54 : 487-500, 2001

13 M. R. Leahy-Hoppa, "Terahertz spectroscopy techniques for explosives detection" 395 : 247-257, 2009

14 H.-B. Liu, "Terahertz Spectroscopy and Imaging for Defense and Security Applications" 95 : 1514-1527, 2007

15 D. L. Woolard, "Terahertz Frequency Sensing and Imaging: A Time of Reckoning Future Applications?" 93 : 1722-1743, 2005

16 G. P. Anderson, "TNT detection using multiplexed liquid array displacement immunoassays" 78 : 2279-2285, 2006

17 J. F. Federici, "THz imaging and sensing for security applications—explosives, weapons and drugs" 20 : S266-S280, 2005

18 J. C. Sanchez, "Synthesis, Luminescence Properties, and Explosives Sensing with 1,1-Tetraphenylsilole- and 1,1-Silafluorene-vinylene Polymers" 19 : 6459-6470, 2007

19 H. Wohltjen, "Surface acoustic wave probe for chemical analysis. I. Introduction and instrument description" 51 : 1458-1464, 2002

20 Y. Engel, "Supersensitive detection of explosives by silicon nanowire arrays" 49 : 6830-6835, 2010

21 S. Singh, "Sensors-an effective approach for the detection of explosives" 144 : 15-28, 2007

22 S. Parajuli, "Sensitive determination of hexamethylene triperoxide diamine explosives, using electrogenerated chemiluminescence enhanced by silver nitrate" 81 : 5267-5272, 2009

23 J. C. Sanchez, "Selective detection of trace nitroaromatic, nitramine, and nitrate ester explosive residues using a three-step fluorimetric sensing process: a tandem turn-off, turn-on sensor" 52 : 1308-1313, 2007

24 D. Gao, "Resonance energy transfer-amplifying fluorescence quenching at the surface of silica nanoparticles toward ultrasensitive detection of TNT" 80 : 8545-8553, 2008

25 E. Schramm, "Real-time trace detection of security-relevant compounds in complex sample matrices by thermal desorption-single photon ionization-ion trap mass spectrometry (TD-SPI-ITMS)" 395 : 1795-1807, 2009

26 L. Agui, "Rapid voltammetric determination of nitroaromatic explosives at electrochemically activated carbon-fibre electrodes" 382 : 381-387, 2005

27 A. B. Kanu, "Rapid preseparation of interferences for ion mobility spectrometry" 610 : 125-134, 2008

28 E. M. A. Ali, "Raman spectroscopy and security applications: the detection of explosives and precursors on clothing" 40 : 2009-2014, 2009

29 M. E. Koscho, "Properties of vapor detector arrays formed through plasticization of carbon black-organic polymer composites" 74 : 1307-1315, 2002

30 H. Du, "Preparation of pyrenefunctionalized fluorescent film with a benzene ring in spacer and sensitive detection to picric acid in aqueous phase" 217 : 356-362, 2011

31 D. S. Moore, "Portable Raman explosives detection," 393 : 1571-1578, 2009

32 M. P. Monterola, "Photofragmentation of nitro-based explosives with chemiluminescence detection" 391 : 2617-2626, 2008

33 J. S. Babis, "Performance evaluation of a miniature ion mobility spectrometer drift cell for application in hand-held explosives detection ion mobility spectrometers" 395 : 411-419, 2009

34 J. Yinon, "Peer Reviewed: Detection of Explosives by Electronic Noses" 75 : 98 A-105 A, 2003

35 P. Lucena, "New challenges and insights in the detection and spectral identification of organic explosives by laser induced breakdown spectroscopy" 66 : 12-20, 2011

36 A. Pettersson, "Near Real-Time StandoffDetection of Explosives in a Realistic Outdoor Environment at 55 m Distance" 34 : 297-306, 2009

37 Y. Fleger, "Narrow gated Raman and luminescence of explosives" 129 : 979-983, 2009

38 R. Glatz, "Mimicking nature's noses: from receptor deorphaning to olfactory biosensing" 93 : 270-296, 2011

39 M. Martin, "Microfabricated vapor preconcentrator for portable ion mobility spectroscopy" 126 : 447-454, 2007

40 J. Wang, "Microchip flow-injection analysis of trace 2,4,6-trinitrotoluene (TNT) using mercury-amalgam electrochemical detector" 69 : 984-987, 2006

41 R. G. Ewing, "Mechanisms for negative reactant ion formation in an atmospheric pressure corona discharge" 12 : 65-72, 2009

42 Z. Takats, "Mass spectrometry sampling under ambient conditions with desorption electrospray ionization" 306 : 471-473, 2004

43 M. S. Meaney, "Luminescence-based methods for sensing and detection of explosives" 391 : 2557-2576, 2008

44 J. L. Gottfried, "Laser-induced breakdown spectroscopy for detection of explosives residues: a review of recent advances, challenges, and future prospects" 395 : 283-300, 2009

45 C. F. Bernasconi, "Kinetic and spectral study of some reactions of 2, 4, 6-trinitrotoluene in basic solution. I. Deprotonation and Janovsky complex formation" 36 : 1671-1679, 1971

46 L. Yu, "Ionic liquid thin layer EQCM explosives sensor" 140 : 363-370, 2009

47 K. Cizek, "Integrated explosive preconcentrator and electrochemical detection system for 2,4,6-trinitrotoluene (TNT) vapor" 661 : 117-121, 2010

48 E. M. Ali, "In-situ detection of single particles of explosive on clothing with confocal Raman microscopy" 78 : 1201-1203, 2009

49 I. Cotte-Rodriguez, "In situ trace detection of peroxide explosives by desorption electrospray ionization and desorption atmospheric pressure chemical ionization" 80 : 1512-1519, 2008

50 J. M. Wells, "Implementation of DART and DESI ionization on a fieldable mass spectrometer" 19 : 1419-1424, 2008

51 A. Portnov, "Highly sensitive standoffdetection of explosives via backward coherent anti-Stokes Raman scattering" 98 : 529-535, 2009

52 D. Lu, "Highly sensitive electrochemical detection of trace liquid peroxide explosives at a Prussian-blue 'artificial-peroxidase' modified electrode" 131 : 1279-1281, 2006

53 Chemring Group and Cobham, "Global Explosive Detection Equipment Market 2019-2023"

54 E. L. Izake, "Forensic and homeland security applications of modern portable Raman spectroscopy" 202 : 1-8, 2010

55 M. D. Woodka, "Fluorescent polymer sensor array for detection and discrimination of explosives in water" 82 : 9917-9924, 2010

56 G. H. Shi, "Fluorescence quenching of CdSe quantum dots by nitroaromatic explosives and their relative compounds" 70 : 247-252, 2008

57 C.-L. Yuan, "Fabrication of MWNTs–PANI composite–a chemiresistive sensor material for the detection of explosive gases" 27 : 509-520, 2009

58 I. Gazit, "Explosives detection by sniffer dogs following strenuous physical activity" 81 : 149-161, 2003

59 J. M. Nilles, "Explosives Detection Using Direct Analysis in Real Time (DART)Mass Spectrometry" 35 : 446-451, 2010

60 J. Zang, "Electrochemical detection of ultratrace nitroaromatic explosives using ordered mesoporous carbon" 683 : 187-191, 2011

61 J. Wang, "Electrochemical Sensing of Explosives" 19 : 415-423, 2007

62 J. C. Sanchez, "Efficient blue-emitting silafluorene–fluorene-conjugated copolymers: selective turn-off/turn-on detection of explosives" 18 : 3143-3156, 2008

63 C. Ramos, "Effect of photochemistry on molecular detection by cavity ringdown spectroscopy: case study of an explosive-related compound" 46 : 6526-6532, 2007

64 F. C. De Lucia, "Double pulse laser-induced breakdown spectroscopy of explosives: Initial study towards improved discrimination" 62 : 1399-1404, 2007

65 J. C. Chen, "Disposable electrochemical sensor for determination of nitroaromatic compounds by a single-run approach" 78 : 3752-3757, 2006

66 K. Nagatomo, "Development of a sensitive surface plasmon resonance immunosensor for detection of 2,4-dinitrotoluene with a novel oligo (ethylene glycol)-based sensor surface" 79 : 1142-1148, 2009

67 B. Marshall, "Detection of volatile indicators of illicit substances by the olfactory receptors of Drosophila melanogaster" 35 : 613-625, 2010

68 C. Ramos, "Detection of vapors of explosives and explosive-related compounds by ultraviolet cavity ringdown spectroscopy" 46 : 620-627, 2007

69 D. R. Justes, "Detection of explosives on skin using ambient ionization mass spectrometry" 2142-2144, 2007

70 E. M. A. Ali, "Detection of explosives on human nail using confocal Raman microscopy" 40 : 144-149, 2009

71 M. Tabrizchi, "Detection of explosives by positive corona discharge ion mobility spectrometry" 176 : 692-696, 2010

72 N. L. Sanders, "Detection of explosives as negative ions directly from surfaces using a miniature mass spectrometer" 82 : 5313-5316, 2010

73 C. Mullen, "Detection of explosives and explosives-related compounds by single photon laser ionization time-of-flight mass spectrometry" 78 : 3807-3814, 2006

74 T. Caron, "Detection of explosive vapors: development and performances of a fluorescence sensor" 23 : 25-30, 2010

75 V. Bhalla, "Detection of explosive compounds using Photosystem II-based biosensor" 657 : 84-90, 2011

76 Y. Takada, "Detection of Military Explosives by Atmospheric Pressure Chemical Ionization Mass Spectrometry with Counter-Flow Introduction" 27 : 224-228, 2002

77 O. M. Primera-Pedrozo, "Detection of High Explosives Using Reflection Absorption Infrared Spectroscopy with Fiber Coupled Grazing Angle Probe/FTIR" 10 : 1-13, 2009

78 J. Yinon, "Detection of Explosives by Mass Spectrometry in Counterterrorist Detection Techniques of Explosives" Elsevier 2007

79 F. W. Karasek, "Detection of 2,4,6-trinitrotoluene vapours in air by plasma chromatography" 93 : 141-147, 1974

80 Y. Mou, "Detection and identification of explosive particles in fingerprints using attenuated total reflection-Fourier transform infrared spectromicroscopy" 54 : 846-850, 2009

81 H. B. Liu, "Detection and identification of explosive RDX by THz diffuse reflection spectroscopy" 14 : 415-423, 2006

82 R. G. Cooks, "Detection Technologies. Ambient mass spectrometry" 311 : 1566-1570, 2006

83 C. C. Mulligan, "Desorption electrospray ionization with a portable mass spectrometer: in situ analysis of ambient surfaces" 1709-1711, 2006

84 H. Wang, "Desorption corona beam ionization source for mass spectrometry" 135 : 688-695, 2010

85 P. Singh, "Dendrimer modified biochip for detection of 2,4,6 trinitrotoluene on SPR immunosensor: Fabrication and advantages" 137 : 403-409, 2009

86 J. S. Caygill, "Current trends in explosive detection techniques" 88 : 14-29, 2012

87 F. Wang, "Copolypeptidedoped polyaniline nanofibers for electrochemical detection of ultratrace trinitrotoluene" 79 : 376-382, 2009

88 S. Moon, "Controlling the geometric design of anodic 1D TiO2 nanotubes for the electrochemical reduction of 2,4,6-trinitrotoluene in ambient conditions" 900 : 115717-, 2021

89 M. J. Waltman, "Characterization of a distributed plasma ionization source (DPIS) for ion mobility spectrometry and mass spectrometry" 77 : 249-255, 2008

90 M. Algarra, "CdSe quantum dots capped PAMAM dendrimer nanocomposites for sensing nitroaromatic compounds" 83 : 1335-1340, 2011

91 G. Berden, "Cavity ring-down spectroscopy:Experimental schemes and applications" 19 : 565-607, 2010

92 G. P. Anderson, "Bead-Based Fluid Array Detection of Pentaerythritol Tetranitrate:Comparison of Monoclonal vs. Llama Polyclonal Antibodies" 43 : 2913-2922, 2010

93 Y. Song, "Atmospheric pressure ion/molecule reactions for the selective detection of nitroaromatic explosives using acetonitrile and air as reagents" 20 : 3130-3138, 2006

94 S. E. Stitzel, "Arrayto-array transfer of an artificial nose classifier" 73 : 5266-5271, 2001

95 J. Wang, "Analytical Electrochemistry: Study of electrode reactions and interfacial properties" Wiley 2006

96 S. Zimmermann, "An ion-focusing aspiration condenser as an ion mobility spectrometer" 125 : 428-434, 2007

97 B. A. Paldus, "An historical overview of cavity-enhanced methods" 83 : 975-999, 2005

98 X.-C. Fu, "Amino functionalized mesoporous silica microspheres with perpendicularly aligned mesopore channels for electrochemical detection of trace 2,4,6-trinitrotoluene" 56 : 102-107, 2010

99 R. M. Alberici, "Ambient mass spectrometry: bringing MS into the "real world"" 398 : 265-294, 2010

100 F. M. Green, "Ambient mass spectrometry: advances and applications in forensics" 42 : 347-357, 2010

101 C. Bohling, "All-fiber-coupled laser-induced breakdown spectroscopy sensor for hazardous materials analysis" 62 : 1519-1527, 2007

102 Reliable Ministry of Government Legislation, "Act No.14954, AVIATION SECURITY ACT"

103 J. Chen, "Absorption coefficients of selected explosives and related compounds in the range of 0.1-2.8 THz" 15 : 12060-12067, 2007

104 R. G. Smith, "A review of biosensors and biologically-inspired systems for explosives detection" 133 : 571-584, 2008

105 A. Diaz Aguilar, "A hybrid nanosensor for TNT vapor detection" 10 : 380-384, 2010

106 A. Ponnu, "A fluorescence-based cyclodextrin sensor to detect nitroaromatic explosives" 22 : 65-71, 2010

107 R. G. Ewing, "A critical review of ion mobility spectrometry for the detection of explosives and explosive related compounds" 54 : 515-529, 2001

108 J. I. Eum, "A Study on Legislation for Introducing Aviation Security Equipments Certification System" Korea Aerospace University 2018