Latent Print Development - National Criminal Justice Reference ...

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C H A P T E R 7 Latent Print Development Wallace-Kunkel, C.; Stoilovic, M.; Lennard, C.; Roux, C. A0571: 1,2-Indanedione as a Finger Mark Reagent Optimisation and Characterisation. Presented at the 17th Meeting of the International Association of the Forensic Sciences, Hong Kong, 2005. Wallace-Kunkel, C.; Lennard, C. J.; Stoilovic, M.; Roux, C. Evaluation of 5-Methylthioninhydrin for the Detection of Fingermarks on Porous Surfaces and Comparison. Ident. Canada 2006, 29 (1), 4–13. Walls, H. J.; Attridge, G. G. Basic Photo Science: How Photography Works; Focal Press: London, 1977. Walter, S. Latent Print Visualization of Aged Lipid Residues; Status Report, April 1999; Savannah River Technical Center: Aiken, SC, 1999. Wargacki, S.; Dadmun, M. D.; Lewis, L. Identifying the True Initiator in the Cyanoacrylate Fuming Method. Presented at the 2005 International Association for Identification Conference, Dallas, TX, 2005. Watkin, J. E.; Wilkinson, D.; Misner, A. H.; Yamashita, A. B. Cyanoacrylate Fuming of Latent Prints: Vacuum Versus Heat/Humidity. J. Forensic Ident. 1994, 4 (5), 545–554. Watling, W. J.; Smith, K. O. Heptane: An Alternative to the Freon Ninhydrin Mixture. J. Forensic Ident. 1993, 43 (2), 131–134. Weaver, D. E. Large Scale Cyanoacrylate Fuming. J. Forensic Ident. 1993, 43 (2), 135–137. Weaver, D. E.; Clary, E. J. A One-Step Fluorescent Cyanoacrylate Fingerprint Development Technology. J. Forensic Ident. 1993, 43 (5), 481–492. Weast, R. C., Ed. CRC Handbook of Chemistry and Physics, 67th ed.; CRC Press: Boca Raton, FL, 1986. Wiesner, S.; Springer, E.; Sasson, Y.; Almog, J. Chemical Development of Latent Fingerprints: 1,2-Indanedione Has Come of Age. J. Forensic Sci. 2001, 46 (5), 1082–1084. Wilansky, M.; Jomphe, A.; Kovacs, G.; Lawrence, J.; LeBlanc, D.; St-Pierre, M.; Wilkinson, D.; Yamashita, A. B. A Comparison of Hand-Held Forensic Light Sources; FIRS Technical Report #16; Royal Canadian Mounted Police: Ottawa, 2006. 7–66 Wilkinson, D. Study of the Reaction Mechanism of 1,8- Diazafluoren-9-one with the Amino Acid, L - Alanine. Forensic Sci. Int. 2000a, 109 (2), 87–103. Wilkinson, D. Spectroscopic Study of 1,2-Indanedione. Forensic Sci. Int. 2000b, 114, 123–132. Wilkinson, D.; Watkin, J. E. A Comparison of the Forensic Light Sources: Polilight, Luma-Lite, and Spectrum 9000. J. Forensic Ident. 1994, 44 (6), 632–651. Wilkinson, D.; Yamashita, A. B.; Annis, K. A Comparison of Forensic Light Sources: Luma-Lite, Mini-Crimescope 400, Omniprint 1000A, Polilight PL500, and Quaser 2000/30. Ident. Canada 2002, 25 (1), 5–15. Wilkinson, D.; Mackenzie, E.; Leech, C.; Mayowski, D.; Bertrand, S.; Walker, T. The Results from a Canadian National Field Trial Comparing Two Formulations of 1,8-Diazafluoren- 9-one (DFO) with 1,2-Indanedione. Ident. Canada 2003, 26 (2), 8–18. Wilkinson, D.; Rumsby, D.; Babin, B.; Merrit, M.; Marsh, J. The Results from a Canadian National Field Trial Comparing 1,8-Diazafluoren-9-one (DFO) with Ninhydrin and the Sequence DFO Followed by Ninhydrin; Technical Report TR- 03-2005; Canadian Police Research Centre: Ontario, 2005. Willinski, G. Permeation of Fingerprints Through Laboratory Gloves. J. Forensic Sci. 1980, 25 (3), 682–685. Wilson, J. D.; Darke, D. J. The Results of Analyses of the Mixtures of Fatty Acids on the Skin: Part I. Commentary; AERE Report No. G-1154; Atomic Energy Research Establishment: ca 1978. Yamashita, A. B. Use of a Benchtop Desiccator for Vacuum Cyanoacrylate Treatment of Latent Prints. J. Forensic Ident. 1994, 44 (2), 149–158. Yemm, E. W.; Cocking, E. C; Ricketts, R. E. The Determination of Amino-Acids with Ninhydrin. Analyst 1955, 80, 209–214. 7.17 Additional Information Almog, J.; Gabay, A. A Modified Super Glue Technique— The Use of Polycyanoacrylate for Fingerprint Development. J. Forensic Sci. 1986, 31 (1), 250–253.
Beecroft, W. Enhancement of PD Prints. RCMP Gazette, 1989, 21, 17. Boniforti, L.; Passi, S.; Caprilli, F.; Nazzaro-Porro, M. Skin Surface Lipids. Identification and Determination by Thin-Layer Chromatography and Gas-Liquid Chromatography. Clin. Chim. Acta 1973, 47 (2), 223–231. Burns, T. D.; Brown, J. K.; Dinsmore, A.; Harvey, K. K. Base- Activated Latent Fingerprints Fumed with a Cyanoacrylate Monomer: A Quantitative Study Using Fourier-Transform Infra-Red Spectroscopy. Anal. Chim. Acta 1998, 362 (2), 171–176. Champod, C.; Egli, N.; Margot, P. A. Fingermarks, Shoesole and Footprint Impressions, Tire Impressions, Ear Impressions, Toolmarks, Lipmarks, Bitemarks—A Review: 2001 to 2004. In Proceedings of the 14th Interpol Forensic Science Symposium; Lyon, France, 2004; pp 227–244. Latent Print Development C H A P T E R 7 Forgeot, R. Des empreintes digitales étudiées au point de vue médico-judiciaire; A. Storck: Lyon, France, 1891. Hamm, E. D. Chemical Developers in Footwear Prints. Fingerprint Whorld 1984, 9, 117–118. Loveridge, F. H. Shoe Print Development by Silver Nitrate. Fingerprint Whorld 1984, 10 (38), 58. Morton, S. Shoe Print Development by PD Treatment. Fingerprint Whorld 1983, 9 (34), 60–61. Siegel, J., Saukko, P., Knupfer, G., Eds.; Encyclopedia of Forensic Sciences; Academic Press: London, 2000. Yong, A. S. J. Detection of Latent Fingerprints with Cyanoacrylates: New Techniques Involving Coloured and Photoluminescent Compounds; Australian National University: Canberra, ACT, Australia, 1986. 7–67
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