• Factsheets
• Briefings
• General Sector Reports
  • Aerospace, Automotive & Transport
  • Agrifood
  • Chemistry & Materials
  • Construction
  • Energy
  • Environment
  • Health, Medicine & Nanobio
  • Information & Communication
  • Security
    • Chemical Detection
    • Biological Detection
    • Radiological and Nuclear Detection
    • Explosives Detection
    • Narcotics Detection
    • Neutralising CBRNE effect
    • Decontamination
    • Forensics
    • Personnel Protection
    • Equipment and Infrastructure Protection
    • Condition Monitoring
    • Anti-Counterfeiting
    • Authentication
    • Positioning and Localisation
    • References and Literature
    • References and Literature
    • Focus Report 2010: Protective Materials for Emergency Responders
  • Textiles
  • Patent Analysis
  • Publication Analysis
• Economic Data
• Societal Issues
• Regulation & Standards
• HSE & Risk
• Business Tools
• Communication
• 

reportReferences and Literature
9.16 Definition

 

 

[1] Y. Seto, N. Tsunoda, M. Kataoka, K. Tsuge, T. Nagano, "Toxicological Analysis of Victims

Blood and Crime Scene Evidence Samples in the Sarin Gas Attack Caused by the Aum Shinrikyo

Cult," in Natural and Selected Synthetic Toxins-Biological Implications, A.T. Tu, W. Garfield,

eds, Washington: American Chemical Society, 2000, p. 318.

 

[2] Organisation for Prohibition of Chemical weapons, "Chemical warfare agents - An overview of

chemicals defined as warfare agents," September 2007,

http://www.opcw.org/resp/html/cwagents.html

 

[3] L.A. Pinnaduwage, H. Ji and T. Thundat, "Moore's Law in Homeland Defense: An Integrated

Sensor Platform Based on Silicon Microcantilevers," IEEE Sensors Journal, vol. 5, pp. 774 - 785,

August 2005.

 

[4] B. Rolfe, "Toward nanometre-scale sensing systems: natural and artificial noses as models for

ultra-small, ultra-dense sensing systems," MITRE Nanosystems Group, USA, Tech. rep. MP

04W0000169, 2004

 

[5] C. Arnold, M. Harms, and J. Goschnick, "Air Quality Monitoring and Fire Detection With The

Karlsruhe Micronose KAMINA," IEEE Sensors Journal, vol. 2, pp. 179-188, June 2002

 

[6] D-S Lee, D-D. Lee, S-W Ban, M. Lee, and Y. T. Kim, "SnO2 Gas Sensing Array for

Combustible and Explosive Gas Leakage Recognition," IEEE Sensors Journal, vol. 2, pp. 140-

149, June 2002.

 

[7] H. T. Nagle, R. Gutierrez-Osuna, and S. S. Schiffman, "The How and Why of Electronic

Noses," IEEE Specturm, vol. 35, pp. 22 - 31, Sep 1998.

 

[8] T. C. Pearce, S. S. Schiffman, H. T. Nagle, J. W. Gardner, eds. Handbook of Machine

Olfaction, Weinheim, Germany, Wiley-Vch Verlag GmbH & Co., 2003.

 

[9] N.S. Lewis, "Electronic Nose Chip Microsensors for Chemical Agent and Explosives

Detection," California Institute of Technology: Noyes Laboratory, Pasadena, California 2001.

 

[10] J. Janata, "Electrochemical Microsensors," Proceedings of the IEEE, vol 91, pp. 864-869,

June 2003.

 

[11] Space Daily, "World's smallest electronic nose," March 2002,

http://www.spacedaily.com/news/future-02a.html

 

[12] Ricardo Gutierrez-Osuna, "Pattern Analysis for Machine Olfaction: A Review," IEEE Sensors

Journal, vol. 2, pp. 189-202, JUNE 2002

 

[13] H.F. Xie, Q.D.Yang, X.X. Sun, T. Yu, J. Zhou, Y.P. Huang, "Gas sensors based on

nanosizedzeolite films to identify dimethylmethylphosphonate," Sens Mater, vol17, pp 21-28,

2005.

 

[14] K. Bodenhoefer, A. Hierlemann, G. Noetzel, U. Weimar, and W. Göpel, "Performances of

Mass-Sensitive Devices for Gas Sensing: Thickness Shear Mode and Surface Acoustic Wave

Transducers," Analytical Chemistry, vol. 68, pp. 2210-2218, 1996.

 

[15 ] H.P. Lang, M.K. Baller, F. M. Battiston, J. Fritz, R. Berger, J.-P. Ramseyer, P. Fornaro, E.

Meyer, H.-J. Guntherodt, J. Brugger, U. Drechsler, H. Rothuizen, M. Despont, P. Vettiger, Ch.

Gerber, J.K. Gimzewski, "The Nanomechanical Nose," 12th IEEE International Conference on

Micro Electro Mechanical Systems, 1999, pp 9-13.

 

[16] J. C. Cajigas, T. L. Longworth, N. Davis, K.Y. Ong, "Testing of HAZMATCAD Detectors

Against Chemical Warfare Agents: Summary Report of Evaluation Performed at Soldier Biological

and Chemical Command," Microsensor Systems, Inc, Bowling Green, Kentucky. p. 1-12, 2003

 

[17] A. J. Ricco, R. M. Crooks, and G. C. Osbourn, "Surface acoustic wave chemical sensor

arrays: new chemically sensitive interfaces combined with novel cluster analysis to detect volatile

organic compounds and mixtures," Accounts Chem. Res., vol. 31, pp. 289-296, 1998.

 

[18] A .Ulman, "Formation and structure of self-assembled monolayers," Chem. Rev., vol. 96, pp.

1533-1554, 1996.

 

[19] L.M. Dorozhkin, V.A. Nefedov, A.G. Sabelnikov, V.G. Sevastjanov, "Detection of trace

amounts of explosives and/or explosive related compounds on various surfaces by a new sensing

technique/material," Sens. Actuators B, vol. 99, pp 568 - 570, 2004.

 

[20] L.M. Dorozhkin, G.N. Dorozhkina, A.V. Fokin, I.A. Rozanov, A.G. Sabelnikov, V.G.

Sevastjanov, "Thin-film piezoelectric acoustic sensor (TFPAS): further experimental validation of

the theory of resonance sensitivity, " Sensors and Actuators B, vol. 106, pp. 529-533, 2005.

 

[21 ] Q. Y. Cai, J. Park, D. Heldsinger, M. D. Hsieh, and E. T. Zellers, "Vapor recognition with an

integrated array of polymer-coated flexural plate wave sensors," Sens. Actuators B, vol. 62, pp.

121-130, 2000.

 

[22]B. Cunningham, M. Weinberg, J. Pepper, C. Clapp, R. Bousquet, B. Hugh, R. Kant, C. Daly,

E. Hauser, "Design, fabrication and vapor characterization of a microfabricated flexural plate

resonator sensor and application to integrated sensor arrays," Sensors and Actuators B, vol. 73

pp. 112 -123, 2001.

 

[23] W. H. Land, Jr., D. Leibensperger, L. Wong, O. Sadik, A. Wanekayab, M. Uematsu, M. J.

Embrechts, "New Results Using Multi Array Sensors and Support Vector Machines for the

Detection and Classification of Organophosphate Nerve Agents," in Systems, Man and

Cybernetics IEEE International Conference, Oct. 2003, pp 2883- 2888.

 

[24 ] D. C. Meier, C. J. Taylor, R. E. Cavicchi, Edward White V, M. W. Ellzy, K. B. Sumpter, and

S. Semancik. IEEE Sensors Journal, vol. 5, pp 712 -725, August 2005.

 

[25] R.J.Davenport, "Crossover Research Yields Scents and Sensitivity," Science, vol. 291, pp.

2071- 2072, March 2001.

 

[26] L. A. Pinnaduwage, A. C. Gehl, S. L. Allman, A. Johansson and A. Boisen, "Miniature sensor

suitable for electronic nose applications," Review Of Scientific Instruments, vol. 78, 055101 1-3,

2007.

 

[27] K. Cattanach, R. D. Kulkarni, M. Kozlov and S. K. Manohar, "Flexible carbon nanotube

sensors for nerve agent simulants," Nanotechnology, vol.17, pp 4123-4128, 2006.

 

[28] C. Staii, A. T. Johnson, M. Chen, A.Gelperin, "DNA decorated carbon nanotubes for chemical

sensing," Nanoletters, vol. 5, pp 1774 -1778, 2005.

 

[29] K. A. Joshi, M. Prouza, M. Kum, J. Wang, J. Tang, R Haddon, W. Chen, and A. Mulchandani,

"V-Type Nerve Agent Detection Using a Carbon Nanotube-Based Amperometric Enzyme

Electrode," Anal. Chem. vol. 78, pp 331-336, 2006.

 

[30] S.V. Patel, T.E. Mlsna, B. Fruhberger, E. Klaassen, S. Cemalovic, D.R. Baselt,

"Chemicapacitive microsensors for volatile organic compound detection," Sensors and Actuators

B, vol 96, pp. 541-553, 2003.

 

[31] T. E. Mlsna, S. Cemalovic, M. Warburton, S. T. Hobson, D. A. Mlsna, S. V. Patel. Sensors

and Actuators B, vol. 116, pp 192-201, 2006.

 

[32] Y. Seto, M. Kanamori-Kataoka, K. Tsuge, I. Ohsawa, H. Maruko, H. Sekiguchi, Y. Sano, S.

Yamashiro, K. Matsushita, H. Sekiguchi, T. Itoi, and K. Iura, "Development of an on-site detection

method for chemical and biological warfare agents," Toxins Review, vol. 29, pp. 299-312, July

2007.

 

[33] M. D. Brickhouse, W. R. Creasy, B. R. Williams, K. M. Morrissey, R. J. O'Connor, H. DuPont

Durst, "Multiple-technique analytical characterization of a mixture containing chemical-weapons

simulant from a munition," Journal of Chromatography A, vol. 883, pp. 185-198, 2000.

 

[34] D. D. Richardson and J. A. Caruso, "Derivatization of organophosphorus nerve agent

degradation products for gas chromatography with ICPMS and TOF-MS detection," Analytical

and Bioanalytical Chemistry, vol 388: pp 809-823, 2007.

 

[35] M. B. Pushkarsky, M. E. Webber, T. Macdonald, C. Kumar, N. Patel, "High-sensitivity, highselectivity

detection of chemical warfare agents," Applied Physics Letters vol. 88, 044103 pp 1-3,

2006.

 

[36] G. J. Havrilla, and T. C. Miller., "High-throughput screening with micro-x-ray fluorescence,"

Review of Scientific Instruments, vol 76, pp 062201: 1-6, 2005

 

[37] K. J. Ewing and B. Lerner, "Infrared Detection of the Nerve Agent Sarin (Isopropyl

Methylphosphonofluoridate) in Water Using Magnesium Oxide for Preconcentration," Applied

Spectroscopy, vol. 55, pp 407 - 411, 2001.

 

[38] F. C. DeLucia, A. C. Samuels, R. S. Harmon, R. A. Walters, K. L. McNesby, A. LaPointe, R.

J. Winkel, Jr., and A. W. Miziolek, "Laser-Induced Breakdown Spectroscopy (LIBS): A

Promising Versatile Chemical Sensor Technology for Hazardous Material Detection," IEEE

Sensors Journal, vol. 5, pp 681 - 689, Aug 2005

 

[39] J. L. Gottfried, F. C. De Lucia, C. A. Munson, and A. W. Miziolek, "Standoff Detection of

Chemical and Biological Threats Using Laser-Induced Breakdown Spectroscopy," Applied

Spectroscopy, vol. 62, pp. 353- 363, 2008.

 

[40] C. Aifan, H. Xiaodong, T. Zhangfa, B. Shouli, L. Ruixian, L. C. Chiun, "Preparation,

characterization and gas-sensing properties of SnO2-In2O3 nanocomposite oxides," Sensors

and Actuators B, vol. 115, pp 316-321, 2006.

 

[41] A. Ponzoni, E. Comini, G. Sberveglieri, I. Alessandri, E. Bontempi, L.E. Depero, "Tin,

Niobium and Vanadium mixed oxide thin films based gas sensors for chemical warfare agent

attacks prevention," in IEEE Sensors Conference, 2007, pp 1322 - 1325.

 

[42] T. G. Maréchaux, "Better Materials Can Reduce the Threat from Terrorism," JOM, vol. 53, pp

12 - 13, December 2001.

 

[43] Cordis, "CBRNE related testing and certification facilities - a networking strategy to

strengthen cooperation and knowledge exchange within Europe," 16th April 2009,

http://cordis.europa.eu/search/index.cfm?fuseaction=proj.document&PJ_LANG=EN&PJ_RCN=10

422186&pid=28&q=FD8A9BBC079BD5FCECD584ADBD3CE6A7&type=adv

 

[44] Cordis, "Localisation of threat substances in urban society ," 6th of April 2009,

http://cordis.europa.eu/search/index.cfm?fuseaction=proj.document&PJ_LANG=EN&PJ_RCN=10

453356&pid=35&q=FD8A9BBC079BD5FCECD584ADBD3CE6A7&type=adv

 

[45] Directorate General for Enterprise and Industry European Commission, " ESSTRT -

European Security: High level study on threat responses and relevant technologies," 15th April

2009, http://ec.europa.eu/enterprise/security/articles/article_2007-02-23_en.htm

 

[46] Directorate General for Enterprise and Industry European Commission, " TERASEC - Active

Terahertz imaging for security," 5th April 2009,

http://ec.europa.eu/enterprise/security/doc/project_flyers_2007/TERASEC.pdf

 

[47] Directorate General for Enterprise and Industry European Commission, "Hazardous Material

Localisation and Person Tracking," 15th April 2009,

http://ec.europa.eu/enterprise/security/doc/project_flyers_2007/HAMLeT.pdf

 

[48] Directorate General for Enterprise and Industry European Commission, "On-line monitoring

of drinking water for public security from deliberate or accidental contamination," 15th April 2009,

http://ec.europa.eu/enterprise/security/doc/project_flyers_2007/Watersafe.pdf

 

[49] C. R. Kline, "High speed advanced sensors for bioterror weapons," IEEE Engineering in

Medicine and Biology, vol. 21, pp. 43- 47, Sept.-Oct 2002.

 

[50] S. S. Iqbal, M. W. Mayo, J. G. Bruno, B. V. Bronk, C. A. Batt, and J. P. Chambers, "A review

of molecular recognition technologies for detection of biological threat agents," Biosensors and

Bioelectronics, vol. 15, pp. 549-578, 2000.

 

[51] Y. M. Yang, H. F. Ji, and T. Thundat, "Nerve agents detection using a Cu2+/L-cysteine

bilayer-coated microcantilever," J. Amer. Chem. Soc., vol. 125, pp. 1124-1125, 2003.

 

[52] M. Mehrvar and M. Abdi, " Recent developments, characteristics, and potential applications

of electrochemical biosensors," Analytical Sciences, Vol. 20, Page 1113 - 1126, August, 2004

 

[53] G.P. Anderson, K.D. King, K.L. Gaffney, and L.H. Johnson, "Multi-analyte interrogation using

the fiber optic biosensor" Biosensors and Bioelectronics, vol.14, pp.771-777, 2000

 

[54] K. D. King, G. P. Anderson, K. E. Bullock , M. J. Regina, E. W. Saaski, F. S. Ligler,

"Detecting staphylococcal enterotoxin B using an automated fiber optic biosensor," Biosensors &

Bioelectronics, vol. 14, pp. 163 -170, 1999.

 

[55] Technology Review, "A Tiny Sensor Simply Made - A nanoscale biosensor that can detect

minute amounts of pathogens could come to market this year," August 2008,

http://www.technologyreview.com/Biotech/20860/page1/

 

[56] S. Song, L. Wang, J. Li, J. Zhao, and C. Fan, "Aptamer-based biosensors," Trends in

Analytical Chemistry, vol. 27, pp 108 -117, 2008.

 

[57] H.M. So, K. Won, Y.H. Kim, B.K. Kim, B.H. Ryu, P.S. Na, H. Kim, and J.O. Lee, "Singlewalled carbon nanotube biosensors using aptamers as molecular recognition elements," Journal American Chemical Society, vol. 127, pp. 11906-7, 2005.

 

[58] L. C. Shriver-Lake and Frances S. Ligler, "The Array Biosensor for Counterterrorism," IEEE

Sensors Journal, vol. 5, pp. 751 -756, August 2005.

 

[59] K. A. Law, S. P. J. Higson, "Sonochemically fabricated acetylcholinesterase micro-electrode

arrays within a flow injection analyser for the determination of

organophosphate pesticides," Biosensors and Bioelectronics, vol. 20, pp. 1914-1924, 2005.

 

[60] J. Pritchard, K. Law, A. Vakurov, P. Millner, S. P.J. Higson, "Sonochemically fabricated

enzyme microelectrode arrays for the environmental monitoring of pesticides," Biosensors and

Bioelectronics, vol. 20, pp. 765-772, 2004.

 

[61] K. A. Joshi, J. Tang, R. Haddon, J. Wang, W. Chen, and A. Mulchandani, "A Disposable

Biosensor for Organophosphorus Nerve Agents Based on Carbon Nanotubes Modified Thick Film

Strip Electrode," Electroanalysis, vol. 17, pp. 54 -58, 2005.

 

[62] J. B.-H. Tok, F. Y. S. Chuang, M. C. Kao, K. A. Rose, S. S. Pannu, M. Y. Sha, G. Chakarova,

S. G. Penn, G. M. Dougherty, "Metallic Striped Nanowires as Multiplexed Immunoassay Platforms

for Pathogen Detection," vol. 45, pp. 6900 - 6904, 2006.

 

[63] A. Joshi, S. Punyani, S. S. Bale, H. C. Yang, T. Borca-Tasciuc, R.S. Kane, "Nanotubesassisted protein deactivation," Nature Nanotechnology, vol. 3, pp. 41-45, 2008

 

[64] O. M. Primera-Pedrozo, J. I. Jerez-Rozo, E. De La Cruz-Montoya, T. Luna-Pineda, L. C.

Pacheco-Londoño, and S. P. Hernández-Rivera, "Nanotechnology-Based Detection of Explosives

and Biological Agents Simulants," IEEE Sensors Journal, vol. 8, pp. 963 -973, June 2008.

 

[65] T. Rainsford, S. P. Mickan, and D. Abbott, "T-ray sensing applications: review of global

developments," Smart Structures, Devices, and Systems II," in Proceedings of SPIE Vol. 5649,

2005, pp. 826 -838.

 

[66] J. L. Gottfried, F. C. De Lucia, C. A. Munson, and A. W. Miziolek, "Standoff Detection of

Chemical and Biological Threats Using Laser-Induced Breakdown Spectroscopy," Applied

Spectroscopy, vol. 62, pp. 353- 363, 2008.

 

[67] T. G. Maréchaux, "Better Materials Can Reduce the Threat from Terrorism," JOM, vol. 53, pp

12 - 13, December 2001.

 

[68] Directorate General for Enterprise and Industry European Commission, "Assessment of the

quantity, identity, viability, origin and dispersion of airborne micro-organisms for application in

crisis management tools," 15th April 2009,

http://ec.europa.eu/enterprise/security/doc/project_flyers_2007/AEROBACTICS.pdf

 

[69] Directorate General for Enterprise and Industry European Commission, "Bioterrorism

resilience, research, reaction-supporting activity promoting co-operation to assess the bio threat

and organise a collective and comprehensive response for EU society and citizens bio security,"

15th April 2009,

http://ec.europa.eu/enterprise/security/doc/project_flyers_2007/BIO3R.pdf

 

[70 ] Directorate General for Enterprise and Industry European Commission, " Biological Optical

Detection," 15th April 2009,

http://ec.europa.eu/enterprise/security/doc/project_flyers_2007/BODE.pdf

 

[71] S. M. Brennan, A.M. Mielke, D. C. Torney, A. B. Maccabe, "Radiation Detection with

Distributed Sensor Networks," Computer, vol. 37, pp. 57-59, Aug. 2004.

 

[72] R.T. Kouzes, "Detecting Illicit Nuclear Material," American Scientist, vol. 93, pp 422- 427,

2005

 

[73] R. Kouzes, J. Ely, R. Hansen, J. Schweppe, E. Siciliano, D. Stromswold, "Homeland Security

Instrumentation For Radiation Detection At Borders," in Forth American Nuclear Society

International Topical Meeting on Nuclear Plant Instrumentation, Controls and Human-Machine

Interface Columbus, Ohio, September, 2004

 

[74] S. S. Nafee, and M. I. Abbas, "A theoretical approach to calibrate radiation portal monitor

(RPM) systems," Applied Radiation and Isotopes, vol. 66, pp. 1474-1477, October 2008.

 

[75] E.R. Siciliano, J.H. Ely, R.T. Kouzes, B.D. Milbrath, J.E. Schweppe, and D.C. Stromswold,

"Comparison of PVT and NaI(Tl) scintillators for vehicle portal monitor applications," Nuclear

Instruments and Methods in Physics Research A 550 (2005) 647-674

 

[76] B.D. Geelhood, J.H. Ely, R.R. Hansen, R.T. Kouzes, J.E. Schweppe, R.A. Warner, "Overview

of Portal Monitoring at Border Crossings," Nuclear Science Symposium Conference Record,

IEEE Volume 1, 19-25 Oct. 2003 Page(s):513 - 517, 2003.

 

[77] B. J. Micklich, and D. L. Smith, "Nuclear materials detection using high-energy gamma-rays,"

Nuclear Instruments and Methods in Physics Research B, vol. 241, pp. 782-786, 2005.

 

[78] D.R. Slaughter, M.R. Accatino, A. Bernstein, P. Biltoft, J.A. Church, M.A. Descalle, J.M. Hall,

D.R. Manatt, G.J. Mauger, T.L. Moore, E.B. Norman, D.C. Petersen, J.A. Pruet, and S.G.

Prussin, "The nuclear car wash: A system to detect nuclear weapons in commercial cargo

shipments," Nuclear Instruments and Methods in Physics Research A, vol. 579, pp. 349-352,

2007.

 

[79] W. Bertozzi, S. E. Korbly, R. J. Ledoux, and W. Park, "Nuclear resonance fluorescence and

effective Z determination applied to detection and imaging of special nuclear material, explosives,

toxic substances and contraband," Nuclear Instruments and Methods in Physics Research B, vol.

261, pp 331-336, 2007.

 

[80] W. Hennig, H. Tan, A. Fallu-Labruyere, W. K. Warburton, J. I. McIntyre, A. Gleyzer, "A

phoswich well detector for radioxenon monitoring," Nuclear Instruments and Methods in Physics

Research A, vol. 579, pp. 431-436, 2007.

 

[81] S.H. Lee, P.P. Povinec, E. Wyse, and M.A.C. Hotchkis, "Ultra-low-level determination of

236U in IAEA marine reference materials by ICPMS and AMS," Applied Radiation and Isotopes

vol. 66, pp. 823-828, 2008.

 

[82] A.D. Bross, K.L. Mellott, and A. Pla-Dalmau, "Systems and Methods for detecting nuclear

radiation in the presence of backgrounds" US Patent 6,909, 098 B2, 21 June 2005.

 

[83] Los Alamos National Laboratory, "Development of nanocomposite scintillators," Spring 2007,

http://www.lanl.gov/orgs/mpa/files/mrhighlights/LALP-07-030.pdf

 

[84] E. A. McKigney, R. E. D. Sesto, L. G. Jacobsohn, P. A. Santi, R. E. Muenchausen, K. C. Ott,

T. M. McCleskey, B. L. Bennett, J. F. Smith, D. W. Cooke, "Nanocomposite scintillators for

radiation detection and nuclear spectroscopy," Nuclear Instruments and Methods in Physics

Research A, vol. 579, pp. 15-18, 2007.

 

[85] M.Misra, K.S. Raja, and T. Gandhi, "Cadmium Zinc Telluride nanowire sensors for detection

of low energy gamma-ray radiation," in Proceedings of SPIE 6959, 2008, p. 695904-1.

 

[86] S.D. Hunter, G.A. de Nolfo, L.M. Barbier, J.T. Link, S. Son, S.R. Floyd, N. Guardala, M.

Skopec, and B. Stark, " Neutron Imaging Camera," in Proceedings of SPIE 6954, 2008, p.

695415-1.

 

[87] H.Ing, T. Cousins, H. R. Andrews, R.Marchrafi, A. Voevodskiy, V.Kovaltchouck, E.T.H.

Clifford, M. Robbins, C.Larsson, R. Hugron, J. Brown, " A new Electronic Dosimeter (END) for

reliable personal dosimetry," in Proceedings of SPIE 6954, 2008, p. 695419-1.

 

[88] A. C. Stephan, T. Gaulden, A. D. Brown, M. Smith, L. F. Miller, and T. Thundat,

"Microcantilever charged-particle flux detector," Review of Scientific Instruments, vol. 73, pp. 36-

41, 2002.

 

[89] T. G. Maréchaux, "Better Materials Can Reduce the Threat from Terrorism," JOM, vol. 53, pp

12 - 13, December 2001.

 

[90] Cordis, "Cooperation across Europe for Cd(Zn)Te based security instruments," Accessed on

16th April 2009,

http://cordis.europa.eu/search/index.cfm?fuseaction=proj.document&PJ_LANG=EN&PJ_RCN=10

229814&pid=3&q=FD8A9BBC079BD5FCECD584ADBD3CE6A7&type=adv

 

[91] J. Yinon, "Detection of Hidden Explosives: An Overview," American Laboratory, vol. 38, pp.

18 - 23, July 2006.

 

[92] S. Singh, M. Singh, "Explosives detection system for aviation security," Signal Processing,

vol. 83, pp. 31 - 55, January 2003.

 

[93] S. Singh, "Sensors - An effective approach for the detection of explosives," Journal of

Hazardous Materials, vol. 144, pp 15-28, 2007.

 

[94] Q. Lu, G.E. Collins, M. Smith, J. Wang, "Sensitive capillary electrophoresis microchip

determination of trinitroaromatic explosives in nonaqueous electrolyte following solid phase

extraction," Analytica Chimca Acta, vol. 469, pp. 253 - 260, October 2002.

 

[95] C.D. Gwenin, M. Kalaji, P.A.Williams, R.M. Jones, "The development of a novel

amperometric biosensor for the detection of nitro explosives," in International Society of

Electrochemistry 55th Annual Meeting, 19-24th September 2004.

 

[96] S. Hrapovic, E. Majid, Y. Liu, K. Male, J.H.T Luong, "Metallic nanoparticle-carbon nanotubes

composites for electrochemical determination of explosive nitroaromatic compounds," Analytical

Chemistry, vol. 78, pp. 5504-5512, 2006

 

[97] J. Wang, S.B. Hocevar, and B. Ogorevc, "Carbon nanotube-modified glassy carbon electrode

for adsorptive stripping voltammetric detection of ultra trace levels of 2,4,6-trinitrotoluene,"

Electrochemistry Commications, vol. 6, pp.176-179, 2004.

 

[98] G.K. Kannan, A.T. Nimal, U. Mittal, R.D.S. Yadava, and J.C. Kapoor, "Adsorption studies of

carbowax coated surface acoustic wave (SAW) sensor for 2,4-dinitrotoluene (DNT) vapour

detection", Sens. Actuators B, vol. 101, 328, 2004

 

[99] E.J. Houser, T.E. Mlsna, V.K. Nguyen, R. Chung, R.L. Mowery, and R.A. McGill, "Rational

materials design of sorbent coatings for explosives: applications with chemical sensors," Talanta,

vol. 54, 469, 2001

 

[100] K.J. Albert, D.R.Walt, "High speed fluorescence detection of explosive like vapors," Anal.

Chem., vol. 72, 1947, 2000

 

[101] G. Walsh, C.-Q., Sun, H. Xiao, N. Liu, J. -H. Dong, and V. Romero, "Detection and

remediation technologies for mines and minelike targets XI," in Proceedings of SPIE 6217, 2006,

62171L.

 

[102 ] L.M. Dorozhkin, V.A. Nefedov, A.G. Sabelnikov, V.G. Sevastjanov, "Detection of trace

amounts of explosives and/or explosive related compounds on various surfaces by a new sensing

technique/material," Sens. Actuators B, vol. 99, pp 568 - 570, 2004.

 

[103] A.W. Apblett, B.P. Kiran, S. Malka, N.F. Materer, and A. Piquette, "Nanotechnology for

neutralization of terrorist explosives," Ceramic Transact, vol. 172, pp. 29-35, 2006

 

[104] S. Content, W.C. Trogler, and M.J. Sailor, "Detection of nitrobenzene, DNT and TNT vapors

by quenching of porous silicon photoluminescence," Chemistry, vol. 16, 2205, 2000

 

[105] A. Rose, Z. Zhu, C.F. Madigan, T.M. Swager, and V. Bulovic, "Sensitivity gains in

chemosensing by lasing action in organic polymers," Nature, vol. 434, 876, 2005.

 

[106] J.V. Goodpaster, V.L. McGuffin, "Fluorescence quenching as an indirect detection method

for nitrated explosives," Analytical Chemistry vol. 73, pp. 2004-2011, 2001.

 

[107] S. Nieto, A. Santana, S.P. Hernandez-Rivera, R. Lareau, R.T., Chamberlain, and M.E.

Castro, "Sensors, and command, control, communications, and intelligence (C3I) technologies for

homeland security and homeland defence III, " In Proceedings of the SPIE Vol. 5403, 2004, pp.

256.

 

[108] S. Tao, G. Li and J. Yin, "Fluorescent nanofibrous membranes for trace detection of TNT

vapor," Journal of Materials Chemistry, vol. 17, pp. 2730-2736, 2007.

 

[109] A. Kumar, I. Leshchiner, S. Nagarajan, R. Nagarajan and J. Kumar, "Detection of

Explosives using nanofibrous membranes," In Technologies for Homeland Security IEEE

Conference, 2008, pp. 390 - 394.

 

[110] Y. Dikmelik, and J.B. Spicer, "Femtosecond laser-induced breakdown spectroscopy of

explosives and explosive-related compounds, detection and remediation technologies for mines

and mine like targets", in Proceedings of the SPIE vol. 5794, 2005, pp. 757-761.

 

[111] W. Bertozzi, S. E. Korbly, R. J. Ledoux, and W. Park, "Nuclear resonance fluorescence and

effective Z determination applied to detection and imaging of special nuclear material, explosives,

toxic substances and contraband," Nuclear Instruments and Methods in Physics Research B, vol.

261, pp 331-336, 2007.

 

[112] Y. Lan, B. Zeng, H. Zhang, B. Chen, Z. Yang, "Simulation of carbon Nanotube Thz

Antenna Arrays," International Journal of Infrared and Millimeter Waves, Vol. 27, No. 6, June

2006.

 

[113] D. Lu, Y. Li, U. Ravaioli, and K. Schulten, "Ion-Nanotube Terahertz Oscillator," Physical

Review Letter, vol. 95, pp 246801, 2005.

 

[114] T. Rainsford, S. P. Mickan, and D. Abbott, "T-ray sensing applications: review of global

developments," Smart Structures, Devices, and Systems II," in Proceedings of SPIE Vol. 5649,

2005, pp. 826 -838.

 

[115] J. F. Federici, D. Gary, R. Barat, and D. Zimdars, "THz Standoff Detection and Imaging of

Explosives and Weapons," in Proceedings of SPIE 5781, 2005, pp, 1-10.

 

[116] Radiabeam Technologies, "Standoff detection of Chemical, Biological, Nuclear, Radiological

and Explosive (CBNRE) and Inspection of Personnel and Cargo," January 2005,

http://www.radiabeam.com/literature/images/THz_White_Paper_Short.pdf

 

[117] H.B. Liu, Y. Chen, G.J. Bastiaans, and X.C. Zhang, "Detection and identification of

explosive RDX by THz diffuse reflection spectroscopy," Optical Express, vol. 14, 415, 2006.

 

[118] A.G.U. Perera, G. Ariyawansa, V.M. Apalkov, S.G. Matsik, X.H. Su, S. Chakrabarti, and P.

Bhattacharya, "Wavelength and polarization selective multi-band tunnelling quantum dot

detectors," Opto-Electronics Review, vol. 15(4), pp. 223-228, 2007.

 

[119] X. H. Su, J. Yang, P. Bhattacharya, G. Ariyawansa and A. G. U. Perera, "Terahertz

detection with tunneling quantum dot intersublevel photodetector," Applied Physics Letters, vol

89, pp. 31117, 2006.

 

[120] J. C. Carter, S. M. Angel, M. Lawrence-Snyder, J. Scaffidi, R. E. Whipple, and J. G.

Reynolds, "Standoff detection of high explosive materials at 50 meters in ambient light conditions

using a small Raman instrument ," Applied Spectroscopy, vol 59, pp 65 -71, 2005.

 

[121] K. M. Spencer, J.M. Sylvia, P.J. Marren, J.F. Bertone, S.D. Christesen, "Chemical and

biological point sensors for homeland defense," in Proceedings of SPIE vol 5269, 2004, p. 1.

 

[122] E. De La Cruz-Montoya, J.L. Jerez, M. Balaguera-Gelves, T. Luna-Pineda, M.E. Castro,

S.P. Hernandez- Rivera, "Optics and photonics in global homeland security," in Proceedings of

the SPIE vol. 6203, 2006, p. 62030.

 

[123]O. M. Primera-Pedrozo, J. I. Jerez-Rozo, E. De La Cruz-Montoya, T. Luna-Pineda, L. C.

Pacheco-Londoño, and S. P. Hernández-Rivera, "Nanotechnology-Based Detection of Explosives

and Biological Agents Simulants," IEEE Sensors Journal, vol. 8, pp. 963 -973, June 2008.

 

[124] D.S. Moore, "Recent Advances in Trace Explosives Detection Instrumentation," Sens

Imaging, vol 8, pp, 9-38, 2007.

 

[125] X. -A. Cao, and X. -R Zhang, "A research on determination of explosive gases utilizing

cataluminescence sensor array," Luminescence, vol. 20, pp. 243-250, 2005.

 

[126] Z. Naal, J.H. Park, S. Bernhard, J.P. Shapleigh, C.A. Batt, and H.D. Abrun, "Amperometric

TNT biosensor based on the oriented immobilization of a nitroreductase maltose binding protein

fusion," Analytical Chemistry, vol. 74, 140, 2002.

 

[127] R. Wilson, C.Clavering, A. Hutchinson, "Paramagnetic bead based enzyme

electrochemiluminescence immunoassay for TNT," Journal of Electroanalytical Chemistry, vol.

557, pp. 109-119, 2003.

 

[128] D.R. Shankaran, K. Matsumoto, K. Toko, N. Miura, "Development and comparison of two

immunoassays for the detection of 2,4,6-trinitrotoluene (TNT) based on surface plasmon

resonance," Sensors and Actuators B, vol. 114, pp 71 -79, 2006.

 

[129] L. Senesac and T. G. Thundat, "Nanosensors for trace explosive detection," Materials

Today, vol. 11, pp. 28-36, March 2008.

 

[130] L.A. Pinnaduwage, V. Boiadjiev, J. E. Hawk, and T. Thundat, "Sensitive detection of plastic

explosives with self-assembled monolayer-coated microcantilevers," Applied Physics Letters, vol.

83, p.1471, 2003.

 

[131] G. Zuo, X. Li, Z. Zhang, T. Yang, Y. Wang, Z. Cheng and S. Feng, "Dual-SAM

functionalization on integrated cantilevers for specific trace-explosive sensing and non-specific

adsorption suppression," Nanotechnology, vol. 18, p. 255501, 2007.

 

[132] N.R.Walker, M. J. Linman, M.M. Timmers, S.L. Dean, C.M. Burkett, J.A. Lloyd, J.D. Keelor,

B.M. Baughman, P.L. Edmiston, "Selective detection of gas-phase TNT by integrated optical

waveguide spectrometry using molecularly imprinted sol-gel sensing films," Analytica Chimica

Acta, vol. 593, pp. 82-91, 2007.

 

[133] P. A. Rasmussen, J. Thaysen, S. Bouwstra and A. Boisen, "Modular design of AFM probe

with sputtered silicon tip ,"Sensors and Actuators, A vol. 92, pp. 96 -101, 2001.

 

[134] P.G. Datskos, N.V. Lavrik, and M.L. Sepaniak, "Detection of explosive compounds with the

use of microcantilevers with nanoporous coatings," Sensor Letter, vol. 1, pp.25-32, 2003.

 

[135] I. C. Nelson, D. Banerjee, W. J. Rogers, M. S. Mannan "Detection of explosives using

heated microcantilever sensors," in Proceedings of SPIE 6223, 2006, p. 62230.

 

[136] P. G. Datskos, M. J. Sepaniak, C. A. Tipple, and N. Lavrik, "Photomechanical chemical

microsensors," Sensors and Actuators B: Chemical, vol. 76, pp. 393-402, June 2001.

 

[137] S. J. Toal, and W.C.J. Trogler, "Polymer sensors for nitroaromatic explosives detection,"

Journal of Material Chemistry, vol. 16, pp. 2871- 2883, 2006.

 

[138] J. S. Yang and T.M.J. Swager, "Fluorescent Porous Polymer Films as TNT Chemosensors:

Electronic and Structural Effects," Journal of the American Chemical Society, vol. 120, pp11864 -

11873, 1998.

 

[139] L. A. Pinnaduwage, A. Wig, D. L. Hedden, A. Gehl, D. Yi, T. Thundat, and R. T. Lareau,

"Detection of trinitrotoluene via deflagration on a microcantilever," Journal Of Applied Physics

Volume 95, Number 10, Pp 5871- 5875, 2004

 

[140] W. Zhao, L. A. Pinnaduwage, J. W. Leis, A. C. Gehl, S. L. Allman, A. Shepp, and K. K.

Mahmud, "Identification and quantification of components in ternary vapor mixtures using a

microelectromechanical-system-based electronic nose," Journal of Applied Physics, vol. 103, p

104902, 2008.

 

[141] L.A. Pinnaduwage, T. Thundat, J.E. Hawka, D.L. Heddena, P.F. Britt, E.J. Houser, S.

Stepnowski, R.A. McGill, and D. Bubb, "Detection of 2,4-dinitrotoluene using microcantilever

sensors," Sensors and Actuators B, vol. 99, pp. 223-229, 2004.

 

[142] E. S. Snow, F. K. Perkins, E. J. Houser, S. C. Badescu, and T. L. Reinecke, "Chemical

Detection with a Single-Walled Carbon Nanotube Capacitor," Science, vol. 307, pp. 1942 -1945,

2005.

 

[143] Cordis, "Optical technologies for the identification of explosives," 16th April 2009,

http://cordis.europa.eu/search/index.cfm?fuseaction=proj.document&PJ_LANG=EN&PJ_RCN=10

288265&pid=15&q=FD8A9BBC079BD5FCECD584ADBD3CE6A7&type=adv

 

[144] Cordis, "Localisation of threat substances in urban society ," 16th April 2009,

http://cordis.europa.eu/search/index.cfm?fuseaction=proj.document&PJ_LANG=EN&PJ_RCN=10

375205&pid=24&q=FD8A9BBC079BD5FCECD584ADBD3CE6A7&type=adv

 

[145] Cordis, "Underwater coastal sea surveyor ," 16th of April 2009,

http://cordis.europa.eu/search/index.cfm?fuseaction=proj.document&PJ_LANG=EN&PJ_RCN=10

407004&pid=26&q=FD8A9BBC079BD5FCECD584ADBD3CE6A7&type=adv

 

[146] Directorate General for Enterprise and Industry European Commission, "Secure Container

Data Device Standardisation," 15th April 2009,

http://ec.europa.eu/enterprise/security/doc/project_flyers_2007/SECCONDD.pdf

 

[147] Directorate General for Enterprise and Industry European Commission, "Transport

Infrastructures Protection System," 15th April 2009,

http://ec.europa.eu/enterprise/security/doc/project_flyers_2007/TRIPS.pdf

 

[148] Directorate General for Enterprise and Industry European Commission, "Integrated system

for on-line trace explosives detection in solid and vapour state," 15th April 2009,

http://ec.europa.eu/enterprise/security/doc/project_flyers_2007/ISOTREX.pdf

 

[149] List of narcotic drugs under international control, Convention on Narcotics Drugs,

International Narcotics Control Board, 2004.

 

[150] L. Juan Peng, M. L. Wen, Y. Yao, "Construction and performance characteristics of new

fentanyl-selective plastic membrane electrode," Analytical Sciences, vol. 17, pp. 815 - 818, June

2001.

 

[151] D. Strellis, T. Gozani, "Classifying threats with a 14-MeV neutron interrogation system,"

Applied Radiation and Isotopes, vol. 63, pp. 799-803, 2005.

 

[152] J. Luong, R. Gras, R. V. Meulebroeck, F. Sutherland, and H. Cortes, "Gas Chromatography

with State-of-the-Art micromachined Differential Mobility Detection: Operation and Industrial

Applications," Journal of Chromatographic Science, vol. 44, pp. 276 - 282, May/June 2006

 

[153] A.G. Ryder, "Surface enhanced Raman scattering for narcotic detection and applications to

chemical biology," Current Opinion in Chemical Biology, vol. 9, pp. 489-493, 2005.

 

[154] G. Trachta, B. Schwarze, G. Brehm, S Schneider, M. Hennemann, and T.Clark, "Nearinfrared Fourier transform surface-enhanced Raman scattering spectroscopy of 1,4-

benzodiazepine drugs employing gold films over nanospheres," Journal of Raman Spectroscopy,

vol. 35, pp. 368-383, 2004.

 

[155] R.J. Dijkstra, A. Gerssen, E.V. Efremov, F. Ariese, U.A.T. Brinkman, and C. Gooijer,

"Substrates for the at-line coupling of capillary electrophoresis and surface-enhanced Raman

spectroscopy," Analytica Chimica Acta, vol. 508, pp.127-134, 2004.

 

[156] L.G. Thygesen, K. Jorgensen, B.L. Moller, S.B. Engelsen, "Raman spectroscopic analysis

of cyanogenic glucosides in plants: development of a flow injection surface-enhanced Raman

scatter method for determination of cyanide," Applied Spectroscopy, vol. 58, pp. 212-217, 2004.

 

[157 ] C. Gooijer (GM.Cassee@few.vu.nl ), "Observatory Nano - Narcotics detection," [Online].

Personal communication to Kshitij Singh, 8th May, 2009

 

[158] J. E. Chambers and S. F. Oppenheimer, "Organophosphates, Serine Esterase Inhibition,

and Modeling of Organophosphate Toxicity," Toxicological Sciences, vol. 77, pp.185-187, 2004.

 

[159] S. Greenberg, P. Kamath, J. Petrali, T. Hamilton, J. Garfield, and J. A. Garlick,

"Characterization of the Initial Response of Engineered Human Skin to Sulfur Mustard,"

Toxicological Sciences, vol. 90, pp. 549-557, 2006.

 

[160] D. Noort, H. P. Benschop, and R. M. Black, "Biomonitoring of Exposure to Chemical

Warfare Agents: A Review," Toxicology and Applied Pharmacology, vol. 184, pp.116-126, 2002.

 

[161] Editorial I, "Management of causalities from terrorist chemical and biological attack: a key

role for anaesthesia," British Journal of Anaesthesia, vol. 89 (2), 2002.

 

[162] N. Brown, I. Crawford, S. Carley, K. Mackway-Jones, "A Delphi-based consensus study into

planning for biological incidents," Journal of Public Health, vol. 28, No. 3, pp. 238-241, 2006,

 

[163] P. Binder, O. Attre, J. P. Boutin, J. D. Cavallo, T. Debord, A. Jouan, D. Vidal, "Medical

management of biological warfare and bioterrorism: place of the immunoprevention and the

immunotherapy," Comparative Immunology, Microbiology & Infectious Diseases, vol. 26, 401-

421, 2003.

 

[164] R. Ellis-Behnke (rutledg@MIT.EDU ), "Observatory Nano - Security," [Online]. Personal

communication to Kshitij Singh, 7th May, 2009.

 

[165] R.D. Ambashta, P.K. Wattal, S. Singh, D. Bahadur, "Nano-aggregates of hexacyanoferrate

(II)-loaded magnetite for removal of cesium from radioactive wastes," Journal of Magnetism and

Magnetic Materials, vol. 267, pp. 335-340, 2003.

 

[166] T. Geisler, K. Trachenko, S. R´ıos, M. T. Dove and E. K. H. Salje, "Impact of self-irradiation

damage on the aqueous durability of zircon (ZrSiO4): implications for its suitability as a nuclear

waste form," Journal of Physics: Condensed Matter, vol. 15, L597-L605, 2003.

 

[167] A. Clearfield, A. Tripathi, D. Medvedev, A.J. Celestian, J.B. Parise, "In situ type study of

hydrothermally prepared titanates and silicotitanates," Journal of Material Science, vol. 41 (2006)

pp. 1325-1333, 2006.

 

[168] S. F. Boulyga, D. Desideri, M. A. Meli, C. Testa, and J. S. Becker, "Plutonium and

americium determination in mosses by laser ablation ICP-MS combined with isotope dilution

technique," International Journal of Mass Spectrometry, vol. 226, pp. 329-339, 2003.

 

[169] M. V. Zoriy, P. Ostapczuk, L. Halicz, R. Hille, J. Sabine Becker, "Determination of 90Sr and

Pu isotopes in contaminated groundwater samples by inductively coupled plasma mass

spectrometry," International Journal of Mass Spectrometry, vol. 242, pp. 203-209, 2005.

 

[170] Chemical Engineering and Science Division, Arragone National Laboratory, "Nanoparticles,

super-absorbent gel clean radioactivity from porous structures, " November 2008,

http://www.anl.gov/Media_Center/News/2004/news040702.htm

 

[171] H. Chen, M. D. Kaminski, X. Liu, C. J. Mertz, Y. Xie, M. D. Torno, A. J. Rosengart, "A novel

human detoxification system based on nanoscale bioengineering and magnetic separation

techniques," Medical Hypotheses, vol. 68, pp.1071-1079, 2007.

 

[172] R. G. Ellis-Behnke, Y.-X. Liang, D. K.C. Tay, P. W.F. Kau, G. E. Schneider, S. Zhang, W.

Wu, K.-F. So, "Nano hemostat solution: immediate hemostasis at the nanoscale,"

Nanomedicine: Nanotechnology, Biology, and Medicine, vol. 2, pp. 207- 215, 2006.

 

[173] European Technology Platform, "Nanomedicine- Nanotechnology for Health: Strategic

Research Agenda for Nanomedicine," European Commission, November 2006

 

[174] Cordis, "Simulation of crisis management activities," 16th of April 2009,

http://cordis.europa.eu/search/index.cfm?fuseaction=proj.document&PJ_LANG=EN&PJ_RCN=99

88473&pid=6&q=FD8A9BBC079BD5FCECD584ADBD3CE6A7&type=adv

 

[175] Cordis, "Identifying the needs of medical first responder in disasters," 16th of April 2009,

http://cordis.europa.eu/search/index.cfm?fuseaction=proj.document&PJ_LANG=EN&PJ_RCN=10

221353&pid=31&q=FD8A9BBC079BD5FCECD584ADBD3CE6A7&type=adv

 

[176] Directorate General for Enterprise and Industry European Commission, " CRIMSON - The

Crisis Simulation System," 15th April 2009,

http://ec.europa.eu/enterprise/security/doc/project_flyers_2007/CRIMSON.pdf

 

[177] Directorate General for Enterprise and Industry European Commission, "TIARA - Treatment

initiatives after radiological accidents," 15th April 2009,

http://ec.europa.eu/enterprise/security/doc/project_flyers_2007/TIARA.pdf

 

[178] J.A.Haggstrom, A. Johanna, P.K. Stoirnenov, K.J. Klabunde, "Synthesis and

characterization of nanosized halogenated and interhalogenated metal oxide adducts," Chemistry

of Materials, vol. 20, pp. 3174-3183, 2008.

 

[179] S. Rajagopalan, O. Koper, S. Decker, K.J. Klabunde, "Nanocrystalline metal oxides as

destructive adsorbents for organophosphorus compounds at ambient temperatures," Chemistry-A

European Journal, vol. 8, pp. 2602-2607, 2002.

 

[180] O.B. Koper, J.S. Klabunde, G.L. Marchin, K. J. Klabunde, P. Stoimenov and L. Bohra,

"Nanoscale Powders and Formulations with Biocidal Activity toward Spores and Vegetative Cells

of Bacillus Species, Viruses," Current Microbiology, vol. 44, pp. 49-55, 2002.

 

[181] M. Morrison, A. Charpentier, O. Teichert, K. Singh, T.Joseph and I. Malsch,

"Nanotechnology and Civil Security," Nanoforum Consortium, Tenth Nanoforum Report, June

2007.

 

[182] X. Huang K. El-Boubbou, and C. Gruden, "Magnetic Glyco-nanoparticles: A Unique Tool for

Rapid Pathogen Detection, Decontamination, and Strain Differentiation," Journal of American.

Chemical Society, vol. 129, pp. 13392-13393, 2007.

 

[183] V. H. Grassian S. C. Stout, S. C. Larsen, "Adsorption, desorption and thermal oxidation of

2-CEES on nanocrystalline zeolites," Microporous and Mesoporous Materials, vol. 100, pp.77-86,

2007.

 

[184] K. Knagge, M. Johnson, V. H. Grassian, and S. C. Larsen, "Adsorption and Thermal

Reaction of DMMP in Nanocrystalline NaY," Langmuir, vol. 22, pp.11077-11084, 2006.

 

[185] B. Tryba, A.W. Morawski, and M. Inagaki, "A new route for preparation of TiO2-mounted

activated carbon," Applied Catalysis B: Environmental, vol. 46, pp. 203-208, 2003.

 

[186] D.F. Ollis, "Photocatalytic Purification and Treatment of Water and Air," H. Al-Ekabi (Ed.),

Elsevier, Amsterdam, 1993.

 

[187 ] M.J. Uddin, F. Cesano, F. Bonino, S. Bordiga, G. Spoto, D. Scarano, and A. Zecchina,

"Photoactive TiO2 films on cellulose fibres: synthesis and characterization," Journal of

Photochemistry and Photobiology A: Chemistry, vol. 189, pp 286-294, 2007.

 

[188] J.Z.Yang and Y.L. Lu, "Nano-TiO2/ACF air purifying material for the degradation of

formaldehyde gas under weak intensity UV irradiation," Proceedings of 2005 International

Conference on Advanced Fibers And Polymer Materials, vol. 1 And 2 - New Century, New

Materials And New Life, pp 1194-1197, 2005.

 

[189] I.N. Martyanov, S. Uma, S. Rodrigues, K.J. Klabunde, "Decontamination of gaseous

acetaldehyde over CoOx-loaded SiO2 xerogels under ambient, dark conditions," Langmuir, vol.

21, pp. 2273-2280, 2005

 

[190 ] P. Kar and M. Misra, "Use of keratin fiber for separation of heavy metals from water,"

Journal of Chemical Technology and Biotechnology, vol. 79, pp 1313-1319, 2004.

 

[191] R. Gopal, S. Kaur, Z.W. Ma, C. Chan, S. Ramakrishna, T. Matsuura, "Electrospun

nanofibrous filtration membrane," Journal Of Membrane Science, vol. 281, pp. 581-586, 2006.

 

[192] T. M. Olson, J.H. Lee, "Optimization of in situ emplacement of nano-sized FeS for

permeable reactive barrier construction," Waste Management and the Environment III, Book

Series: Wit Transactions on Ecology and the Environment, vol. 92, pp. 387-392, 2006.

 

[193] E.J.Anaissie, S.R. Penzak, and M.C. Dignani "The hospital water supply as a source of

nosocomial infections: a plea for action," Archives of Internal Medicine, vol.162, pp. 1483-1492,

2002.

 

[194] G. A. Ortolano, M.B. McAlister, J.A. Angelbeck, J. Schaffer, R.L. Russell, E. Maynard, B.

Wenz, "Hospital water point-of-use filtration: a complementary strategy to reduce the risk of

nosocomial infection," American Journal of Infection Control, vol. 33, pp.S1-19, 2005.

 

[195] M.Exner, A. Kramer, L. Lajoie, J. Gebel, S. Engelhart, and P. Hartemann, " Prevention and

control of health care-associated waterborne infections in health care facilities," American Journal

of Infection Control, vol. 33, pp.S26-S40, 2005.

 

[196] P.J. Sheffer, J.E. Stout, M.M. Wagener, and R.R. Muder, " Efficacy of new point-of-use

water filter for preventing exposure to Legionella and waterborne bacteria," American Journal of

Infection Control, vol. 33, pp.S20-S25, 2005.

 

[197] M.Trautmann, T. Michalsky, H. Wiedeck, V. Radosavljevic, M. Ruhnke, "Tap water

colonization with Pseudomonas aeruginosa in a surgical intensive care unit (ICU) and relation to

Pseudomonas infections of ICU patients," Infection Control and Hospital Epidemiology, vol. 22,

pp. 49-52, 2001.

 

[198] G. Daeschlein, W. H Krüger, C. Selepko, M. Rochow, G. Dölken and A. Kramer," Hygienic

safety of reusable tap water filters (Germlyser®) with an operating time of 4 or 8 weeks in a

haematological oncology transplantation unit," BMC Infectious Diseases , 7:45, 2007.

 

[199 ] European Security Research Advisory Board, "Meeting the Challenge: the European

Security Research Agenda," ISBN 92-79-01709-8

 

[200] C. Champod, C. Lennard, P. Margot, M. Stoilovic, "Fingerprints and Other Ridge Skin

Impressions," CRC Press LLC, Florida, 2004.

 

[201] S. M. Fernandez, "Method and apparatus for imaging and documenting fingerprints," US

patent 6,485, 981, October 26, 2002.

 

[202] E. R. Menzel, "Fingerprint development method," US patent 6,306, 662, October 23, 2001.

 

[203] University of Sunderland, "Nanoparticles as agents for imaging fingerprints,"

British patent application 0400235.8, January 7, 2004.

 

[204] B. J. Theaker, K. E. Hudson, F. J. Rowell, "Doped hydrophobic silica nano- and microparticles as novel agents for developing latent fingerprints," Forensic Science International, vol. 174, pp. 26-34, 2008.

 

[205] L. Liu, S. K. Gill, Y. Gao, L. J. Hope-Weeks, K. H. Cheng, "Exploration of the use of novel

SiO2 nanocomposites doped with fluorescent Eu3+/sensitizer complex for latent fingerprint

detection," Forensic Science International, vol. 176, pp. 163-172, 2008.

 

[206] B. Schnetz and P. Margot, "Technical note: latent fingermarks, colloidal gold and multimetal

deposition (MMD): Optimisation of the method," Forensic Science International

vol. 118, pp. 21-28 2001.

 

[207] A. Becue, C. Champod, P. Margot, "Use of gold nanoparticles as molecular intermediates

for the detection of fingermarks," Forensic Science International vol.168, pp. 169-176, 2007.

 

[208] E. Stauffer, A. Becue, K.V. Singh, K.R. Thampi, C. Champod, and P. Margot, "Single-Metal

Deposition (SMD) as a Latent Fingermark Enhancement Technique: An Alternative to Multimetal

Deposition (MMD)," Forensic Science International, vol. 168, e5-e9, 2007.

 

[209] A. Becue, A. Scoundrianos, C. Champod, P. Margot, "Fingermark detection based on the in

situ growth of luminescent nanoparticles-Towards a new generation of multimetal deposition,"

Forensic Science International, vol. 179, pp. 39-43, 2008.

 

[210] J. Dutta , N. U. Islam, K. F. Ahmed, A. Sugunan, "Forensic Fingerprint Enhancement using

Bioadhesive Chitosan and Gold Nanoparticles," in Proceedings of the 2nd IEEE International

Conference on Nano/Micro Engineered and Molecular Systems, 2007.

 

[211] M. Sametband, I. Shweky, U. Banin, D. Mandler, J. Almog, "Application of nanoparticles for

the enhancement of latent fingerprints," Journal of the Chemical Society, Chemical

Communications, vol. 38, pp. 1142-1144, 2007.

 

[212] M. Brust, M.Walker, D. Bethell, D.J. Schiffrin, R. Whyman, "Synthesis of thiol-derivatized

gold nanoparticles in a two-phase liquid-liquid system," Journal of the Chemical Society -

Chemical Communications, vol. 7, pp. 801-802, 1994.

 

[213] R. Leggett, E.E. Lee-Smith, S.M. Jickells, D. Russell, ‘‘Intelligent fingerprinting:

simultaneous identification of drug metabolites and individuals by using antibody-functionalized

nanoparticles," Angewandte Chemie International, vol. 46, pp. 4100-4103, 2007.

 

[214] M.J. Choi, A.M. McDonagh, P.J. Maynard, R. Wuhrer, C. Lennard, C. Roux, "Preparation

and evaluation of metal nanopowders for the detection of fingermarks on non-porous surfaces,

"Journal of Forensic Identification, vol. 56, pp. 756-768, 2006.

 

[215] C. G. Worley, S. S. Wiltshire, T. C. Miller, G. J. Havrilla and V. Majidi, "Detection of visible

and latent fingerprints using micro-X-ray fluorescence elemental imaging", Journal of Forensic

Science, vol. 51, pp. 57-63, 2006.

 

[216] A. Grant, T. J. Wilkinson, D. R. Holman and M. C. Martin, "Identification of recently handled

materials by analysis of latent human fingerprints using infrared spectromicroscopy", Applied

Spectroscopy, vol. 59, pp. 1182-87, 2005.

 

[217] B. Hartzell-Baguley, R. E. Hipp, N. R. Morgan and S. L. Morgan, "Chemical composition of

latent fingerprints by gas chromatography mass spectrometry", Journal of Chemical Education,

vol. 84, pp. 689-691, 2007.

 

[218] M.J. Choi, K.E. McBean, P.H.R. Ng, A.M. McDonagh, P.J. Maynard, C. Lennard, and C.

Roux, "An evaluation of nanostructured zinc oxide as a fluorescent powder for fingerprint

detection," Journal of Materials Science, vol. 43, pp. 732-737, 2008.

 

[219] J. Bergeron, "Development of bloody prints on dark surfaces with titanium dioxide and

methanol," Journal of Forensic Sciences, vol. 53, pp. 149-161, 2003.

 

[220] C. Schiemer, C. Lennard, P. Maynard, C. Roux, "Evaluation of techniques for the detection

and enhancement of latent fingermarks on black electrical tape," Journal of Forensic

Identification, vol. 55, pp. 214-238, 2005.

 

[221] G. Polimeni, B. F. Foti, L. Saravo, G.D. Fulvio, "A novel approach to identify the presence of

fingerprints on wet surfaces," Forensic Science International, vol. 146S, S45-S46, 2004

 

[222] M.J. Choi, T. Smoother, A.A. Martin, A.M. McDonagh, P.J. Maynard, C. Lennard, C. Roux,

"Fluorescent TiO2 powders prepared using a new perylene diimide dye: applications in latent

fingermark detection," Forensic Science International, vol. 173, pp. 154-160, 2007.

 

[223] E.R. Menzel, J.R. Schwierking, and L.W. Menzel, "Functionalized europium oxide

nanoparticles for fingerprint detection: a preliminary study," Journal of Forensic Identification, vol.

55, pp. 189-195, 2005.

 

[224] K.K. Bouldin, E.R. Menzel, M. Takatsu, R.H. Murdock, "Diimideenhanced fingerprint

detection with photoluminescent CdS/dendrimer nanocomposites," Journal of Forensic Sciences,

vol. 45, pp. 1239-1242, 2000.

 

[225] E.R. Menzel, S.M. Savoy, S.J. Ulvick, K.H. Cheng, R.H. Murdock, M.R. Sudduth,

"Photoluminescent semiconductor nanocrystals for fingerprint detection," Journal of Forensic

Sciences, vol. 45, pp. 545-551, 2000.

 

[226 ] E.R. Menzel, M. Takatsu, R.H. Murdock, K. Bouldin, and K.H. Cheng, "Photoluminescent

CdS/dendrimer nanocomposites for fingerprint detection," Journal of Forensic Sciences, vol. 45,

pp. 770-773, 2000.

 

[227] N. Lewinski, V. Colvin, and R. Drezek, "Cytotoxicity of nanoparticles," Small, vol. 4, pp. 26-

49, 2008.

 

[228] MS Macrosystems, "ForensicXP-4010 Imaging Spectrometer for Questioned Document

Experts," November 2008, http://www.msmacrosystem.nl/Forensic/forensic_xp.html

[229] G.S. Watson and J.A. Watson, "Potential applications of scanning probe microscopy in

forensic science," in Journal of Physics: Conference Series 61, 2007, pp. 1251-1255.

 

[229] G.S. Watson and J.A. Watson, "Potential applications of scanning probe microscopy in

forensic science," in Journal of Physics: Conference Series 61, 2007, pp. 1251-1255.

 

[230] S. Valussi, "Advances in Nanotechnology for forensic application", at the Institute of

Nanotechnology Security and Crime prevention conference, Royal Society, London, 18th

January, 2007.

 

[231] J.Yang, A. Gunn, T. Palmbach, W. Dongguang, S. Sinha, "Nano-Forensics -

Nanoparticles in Gun-Shot-Residue," in IEEE Conference on Emerging Technologies -

Nanoelectronics 10-13, 2006, pp. 269-272.

 

[232] H. Kinoshita, M. Nishiguchi, H. Ouchi, T. Minami, A. Kubota, T. Utsumi, N. Sakamoto, S.

Nobuharu, N. Kashiwagi, K. Shinomiya, H. Tsuboi, and S. Hishida, "Synthesis and

Characterization of Nanosized Halogenated and Interhalogenated Metal Oxide Adducts,"

Chemistry of Materials, vol. 20, pp. 3174-3183, 2004.

 

[233] R. G. Cooks, I. Cotte-Rodrı´guez, and C. C. Mulligan, "Non-Proximate Detection of Small

and Large Molecules by Desorption Electrospray Ionization and Desorption Atmospheric

Pressure Chemical Ionization Mass Spectrometry: Instrumentation and Applications in Forensics,

Chemistry, and Biology," Analytical Chemistry, vol. 79, pp. 7069-7077, 2007.

 

[234] D.A. Healy, C.J. Hayes, P.Leonard, L.McKenna and R. O'Kennedy, "Biosensor

developments: application to prostate-specific antigen detection," Trends in Biotechnology,

vol.25, pp. 125-131, 2007.

 

[235] J.M.Nam, "Nanoparticle-based bio-barcodes for the ultra sensitive detection of proteins,"

Science, vol. 301, pp.1884-1886, 2003.

 

[236] D.S.Grubisha, "Femtomolar detection of prostate-specific antigen: an immunoassay based

on surface-enhanced Raman scattering and immunogold labels," Analytical Chemistry, vol. 75,

pp. 5936-5943, 2003.

 

[237] J.H. Lee et al., "Immunoassay of prostate-specific antigen (PSA) using resonant frequency

shift of piezoelectric nanomechanical microcantilever," Biosensors and Bioelectronics, vol. 20, pp.

2157-2162, 2005.

 

[238] G. Zheng et al., "Multiplexed electrical detection of cancer markers with nanowire sensor

arrays," Nature Biotechnology, vol. 23, pp. 1294-1301, 2005.

 

[239] L. Y. L. Yung and W. J. Qin, "Nanoparticle-based detection and quantification of DNA with

single nucleotide polymorphism (SNP) discrimination selectivity," Nucleic Acids Research, vol. 35,

pp. 1-8, 2007.

 

[240] K. M. Horsman, J. M. Bienvenue, K. R. Blasier, and J. P. Landers, "Forensic DNA Analysis

on Microfluidic Devices: A Review," Journal of Forensic Science, vol. 52, pp. 784 - 799, 2007.

 

[241] X. Su, S. Chan, T. Koo, M. Yamakawa, A.A. Berlin, "Detecting molecular binding by

monitoring feedback controlled cantilever detection." US patent application 7,105,301, September

12, 2006.

 

[242] D.M. Connolly, "High Resolution DNA detection methods and device." US patent 6,399,303

B1, June 4, 2002.

 

[243] X. Zhao, R. Tapec-Dytioco, K. Wang, and W. Tan, "Collection of Trace Amounts of

DNA/mRNA Molecules Using Genomagnetic Nanocapturers," Analytical Chemistry, vol. 75, pp.

3476-3483, 2003.

 

[244] C. A. Mirkin, S.J. Park, and T.A. Taton, "Array-Based Electrical Detection of DNA with

Nanoparticle Probes Science," vol. 295, pp. 1503-1506, 2002.

 

[245] J. Wang, G. Liu, and T.M.H. Lee, "Nanocrystal-Based Bioelectronic Coding of Single

Nucleotide Polymorphisms," Journal of American Chemical Society, vol. 127, pp. 38-39, 2005.

 

[246] J.A. Hansen, R. Mukhopadhyay, J.O. Hansen, and K. V. Gothelf, "Femtomolar

electrochemical Detection of DNA Targets Using Metal Sulfide Nanoparticles," Journal of

American Chemical Society, vol. 128, pp.3860-3861, 2006.

 

[247] M. Kumbhakar, S. Nath, T. Mukherjee, J. P. Mittal, and H. Pal, "Single-molecule detection in

exploring nanoenvironments: an overview," Journal of Photochemistry and Photobiology C:

Photochemistry Reviews, vol. 5, 113-137, 2004.

 

[248] A. A. Evstrapov, A. L. Bulyanitsa, V. E. Kurochkin, A. O. Petryakov, G. E. Rudnitskaya, T. A.

Sal'nikova, and Ya. I. Alekseev, "Rapid Analysis of Oligonucleotides on a Planar Microfluidic

Chip," Journal of Analytical Chemistry, vol. 59, pp. 521-527, 2004.

 

[249] M. Pumera, "Analysis of explosives via microchip electrophoresis and conventional capillary

electrophoresis: A review," Electrophoresis, vol. 27, pp. 244-256, 2006.

 

[250] European Security Research Advisory Board, "Meeting the Challenge: the European

Security Research Agenda," ISBN 92-79-01709-8

 

[251] Swiss National Science Foundation Project Database, "Development of advanced

fingermark detection techniques based on luminescent nanoparticles," 13th May 2009,

http://www.projectdb.snf.ch/WebForms/ProjectDetail.aspx?ID=f4299faf-4f31-4cbf-b7b9-

3d7519ccf3e6

 

[252] W. Morrison, "Overview of current collective protection filtration technology," in 2002 NBC

Defense collective protection conference, 2002.

 

[253] R.A. Moss, K.Y. Kim, and S. Swarup, Journal of American Chemical Society vol. 108:788-

93, 1986

 

[254] C.A. Bunton, H.J. Foroudian, N.D. Gillitt, Journal of Physical Organic Chemistry, vol.12,

p.758, 1999

 

[255] M.J.McCreery, "Topical skin protectants," US Patent No. 5607979, 1997.

 

[256] J.C. Speck, "Polycholoro," US Patent No. 2885305, 1959.

 

[257] Y.C.Yang, "Chemical detoxification of nerve agent VX," Accounts of Chemical Research,

vol. 32, pp.109-115, 1999.

 

[258] S. Sundarrajan, S. Ramakrishna, "Fabrication of nanocomposite membranes from

nanofibers and nanoparticles for protection against chemical warfare stimulants," Journal of

Material Science, vol. 42, pp.8400-8407, 2007.

 

[259] K. Graham, M. Gogins and H.S. Gibson, 2003 "Incorporation of electrospun nanofibres into

functional structures," in INTC Conference, Baltimore, MD, September 2003.

 

[260] Z.-M. Huang, Y. -Z. Zhang, M. Kotaki and S. Ramakrishna, "A review of polymer nanofibres

by electrospinning and their applications on nanocomposites,"

Other documents in this catalogue entry:

Showing 0-1 of 1 results « Previous Page: 1Next »

Order by NameDateSize

Reference List Complete list of reference for the Security...

Show document info

169 KByte

Showing 0-1 of 1 results « Previous Page: 1Next »

Order by NameDateSize

Jump back to top