Adli Kimyada Spektrofotometri Metoduyla GSR Analizi
Yıl 2023,
Cilt: 12 Sayı: 2, 335 - 350, 30.12.2023
Gökhan Tekin
,
Ercan Seyhan
,
Işıl Aydın
,
Fırat Aydın
Öz
Bu çalışma, adli kimya uygulamalarından atış artıkları analizlerine yönelik olarak yapılmıştır. Verimli sonuçlar elde etme yöntemlerinden olan Enerji Dağılımlı X-Işını Analizörlü Taramalı Elektron Mikroskobu (SEM-EDS) ve Grafit Fırınlı Atomik Absorpsiyon Spektrometresi (GFAAS) cihazları ile analiz surecinin tamamı değerlendirilmiş, elde edilen verilerin mukayeseleri yapılarak olumlu sonuçlar elde edilmeye çalışılmıştır. Analiz işlemi bitiminde hangi sonuçların daha sağlıklı olduğu ele alınmış, numunelerin özellikle tekrar analiz etmeye uygunluğu üzerinde durulmuştur. SEM/EDS cihazı ile yapılan analizlerde tüm numuneler üzerinde atış artıklarının varlığı belirlenmiş, ancak aynı numuneler GFAAS cihazı ile analiz edildiğinde sonuçlar, atış artıkları varlığına işaret eden antimon derişimi olan 10 μg/L’lik eşik değerin altında kalmıştır. Elde ettiğimiz değerlerin atış artığı taneciklerinin büyüklük ve ağırlıklarıyla değişkenlik gösterebileceği unutulmamalıdır. SEM/EDS cihazı ile analiz yöntemi her ne kadar maliyetli bir yöntem olsa da numune toplamadaki kolaylık, analiz sürecine ekstra hiçbir işlem yapmadan geçiş ve analizlemede numune üzerindeki atış artıkları haricindeki başka elementleri de tespit etme özelliği ile derişimi eşik değer altındaki tanecikleri de belirleme durumlarından dolayı daha uygun olduğu değerlendirilmiştir.
Kaynakça
- A. Zeichner, N. Levin, M. Dvorachek, “Gunshot residue particles formed by using ammunitions that have mercury fulminate based primers,” J. Forensic Sci, JFSCA, vol.32, pp.1567-1573, 1992.
- J.I. Thornton, “Close proximity gunshot residues,” J. Forensic Sci, JFSCA, vol.31, no.2, pp.756-757, 1986.
- Z. Brozek-Mucha, “Comparison of cartridge case and airborne GSR- a study of the elemental composition and morphology by means of SEM-EDX,” X-Ray Spectrometry, vol.36, no.6, pp. 398-407, 2007.
- C. Aksoy, Y. Akman, Z. O. Ergun, U. Uzek, F. Aydin, “Determination of Antimony in Gunshot Residues Using GFAAS and SEM/EDX,” Atomic Spectroscopy, vol. 34, no.5, pp.170-174, 2013.
- K. H. Chang, P. T. Jayaprakash, C. H. Yew, A. F. L. Abdullah, “Gunshot residue analysis and its evidential values: a review,” Australian Journal of Forensic Sciences, vol.45, no.1, pp. 3-23, 2013, doi: 10.1080/00450618.2012.691546
- L. Reid, K. Chana, J.W. Bond, M.J. Almond, S. Black, “Stubs Versus Swabs? A Comparison of Gunshot Residue Collection Techniques,” Journal of Forensic Sciences, vol.55, no.3, pp.753-756, 2010.
- C. Aksoy, T. Bora, N. Senocak, F. Aydın, “A new method to reduce false positives due to antimony in detection of gunshot residues,” Forensic Sci. Int., vol.250, pp. 87-90, 2015.
- W. Feeney, C.V. Pyl, S. Bell, T. Trejos, “Trends in composition, collection, persistence, and analysis of IGSR and OGSR: A review,” Forensic Chemistry, vol.19, p. 250, 2020.
- O. Dalby, D. Butler, J. W. Birkett, “Analysis of gunshot residue and associated materials-a review,” J Forensic Sci., vol. 55, pp. 924-943, 2010.
- J. Lebiedzik, D. L. Johnson, “Rapid search and quantitative analysis of gunshot residue particles in the SEM,” J Forensic Sci., vol.45, no.1, p. 82, 2000.
- S. Erdogan, I. Aydin, M.Z. Duz, F. Aydin, K.S. Celik, O. Akba, C. Hamamci, “Simultaneous Multi element Determination of Al, As, Cd, Cr, Cu, Fe, Hg, Mn, Ni, Pb, Sn, and Zn in Bulgur Wheat by ICP-OES,” Atomic Spectroscopy, vol. 36, no.5, p. 212, 2015.
- L. S. Blakey, G. P. Sharples, K. Chana, J. W. Birkett, “The fate and behaviour of gunshot residue: recreational shooter distribution,” Australian Journal of Forensic Sciences, vol. 51, sup1, pp. 176-179, 2019, doi: 10.1080/00450618.2019.1569148
- A. Zeichner, N. Levin, “More on the Uniqueness of Gunshot Residue (GSR) Particles,” J Forensic Sci., vol.42, no. 6, pp. 1027-1028, 1997.
- D. M. Gialamas, E. Rhodes, F. Sugarman, “LA Officers, Their Weapons And Their Hands: An Empirical Study Of GSR On The Hands Of Non-Shooting Police Officers,” J Forensic Sci., vol.40, no.6, pp. 1086-1089, 1995.
- A. Zeichner, N. Levin, “More On Uniqueness of Gunshot Residue (GSR) Particles,” J Forensic Sci. vol. 42, no. 6, p. 102, 1997.
- T. Trejos, C. V. Pyl, K. Menking-Hoggatt, A. L. Alvarado, L. E. Arroyo, “Fast identification of inorganic and organic gunshot residues by LIBS and electrochemical methods,” Forensic Chemistry, vol. 8, pp. 146–156, 2018.
- M. R. Rijnders, A. Stamouli, A. Bolck, “Comparison of Gsr Composition Occurring At Different Locations Around The Firing Position,” J Forensic Sci., vol. 55, no.3, pp. 616-623, 2010.
- I. Kara, “The influence of different skin types on GSR sampling by tape lifting for SEM analysis,” Microscopy Research and Technique, vol. 80, no.12, pp. 1310-1314, 2017.
- T. Jalanti, P. Henchoz, A. Gallusser, M. S. Bonfanti, “The Persistence Of Gunshot Residue On Shooters’ Hands,” Science & Justice, vol.39, no.1, pp. 48-52, 1999.
- Z. Brozek-Mucha, “Chemical and Morphological Study of Gunshot Residue Persisting on the Shooter by Means of Scanning Electron Microscopy and Energy Dispersive X-Ray Spectrometry,” Microscopy and Microanalysis, vol.17, no.6, pp. 972-982, 2011.
- B. Yüksel, A. O. Yiğiter, T. Bora, A. Bozkurt, M. Çavuş, “Determination of Antimony Element in Gunshot Residue Hand Swabs by Graphite Furnace Atomic Absorption Spectrometry,” Journal of Forensic Medicine, vol.30, no.2, pp. 114, 2016.
GSR Analysis by Spectrophotometry Method in Forensic Chemistry
Yıl 2023,
Cilt: 12 Sayı: 2, 335 - 350, 30.12.2023
Gökhan Tekin
,
Ercan Seyhan
,
Işıl Aydın
,
Fırat Aydın
Öz
This study was conducted to analyze residual shots from forensic chemistry applications. The entire analysis process was evaluated with Scanning Electron Microscopy/Energy Dispersive X-Ray Spectroscopy (SEM/EDS) and, Graphite Furnace Atomic Absorption Spectrometry (GFAAS)devices, which are among the methods for obtaining efficient results, and positive results were tried to be obtained by comparison. Following the study, it was discussed which results were more appropriate; in particular, the samples' appropriateness for reanalysis was underlined. The presence of shot residues on all samples was determined in the analyses performed with the SEM/EDS device. When the same samples were analyzed with the GFAAS device, the results remained below the threshold value of 10 μg/L, which is the antimony concentration indicating the presence of shot residues. It should be noted that the values we obtained may vary with the size and weight of the shot residue particles. Due to the ease of sample collection, the capacity to identify elements other than gunshot residues on the sample under examination, and the circumstances surrounding the determination of particles below the threshold value, the analysis method utilizing the SEM/EDS device has been deemed more suitable despite its higher cost.
Kaynakça
- A. Zeichner, N. Levin, M. Dvorachek, “Gunshot residue particles formed by using ammunitions that have mercury fulminate based primers,” J. Forensic Sci, JFSCA, vol.32, pp.1567-1573, 1992.
- J.I. Thornton, “Close proximity gunshot residues,” J. Forensic Sci, JFSCA, vol.31, no.2, pp.756-757, 1986.
- Z. Brozek-Mucha, “Comparison of cartridge case and airborne GSR- a study of the elemental composition and morphology by means of SEM-EDX,” X-Ray Spectrometry, vol.36, no.6, pp. 398-407, 2007.
- C. Aksoy, Y. Akman, Z. O. Ergun, U. Uzek, F. Aydin, “Determination of Antimony in Gunshot Residues Using GFAAS and SEM/EDX,” Atomic Spectroscopy, vol. 34, no.5, pp.170-174, 2013.
- K. H. Chang, P. T. Jayaprakash, C. H. Yew, A. F. L. Abdullah, “Gunshot residue analysis and its evidential values: a review,” Australian Journal of Forensic Sciences, vol.45, no.1, pp. 3-23, 2013, doi: 10.1080/00450618.2012.691546
- L. Reid, K. Chana, J.W. Bond, M.J. Almond, S. Black, “Stubs Versus Swabs? A Comparison of Gunshot Residue Collection Techniques,” Journal of Forensic Sciences, vol.55, no.3, pp.753-756, 2010.
- C. Aksoy, T. Bora, N. Senocak, F. Aydın, “A new method to reduce false positives due to antimony in detection of gunshot residues,” Forensic Sci. Int., vol.250, pp. 87-90, 2015.
- W. Feeney, C.V. Pyl, S. Bell, T. Trejos, “Trends in composition, collection, persistence, and analysis of IGSR and OGSR: A review,” Forensic Chemistry, vol.19, p. 250, 2020.
- O. Dalby, D. Butler, J. W. Birkett, “Analysis of gunshot residue and associated materials-a review,” J Forensic Sci., vol. 55, pp. 924-943, 2010.
- J. Lebiedzik, D. L. Johnson, “Rapid search and quantitative analysis of gunshot residue particles in the SEM,” J Forensic Sci., vol.45, no.1, p. 82, 2000.
- S. Erdogan, I. Aydin, M.Z. Duz, F. Aydin, K.S. Celik, O. Akba, C. Hamamci, “Simultaneous Multi element Determination of Al, As, Cd, Cr, Cu, Fe, Hg, Mn, Ni, Pb, Sn, and Zn in Bulgur Wheat by ICP-OES,” Atomic Spectroscopy, vol. 36, no.5, p. 212, 2015.
- L. S. Blakey, G. P. Sharples, K. Chana, J. W. Birkett, “The fate and behaviour of gunshot residue: recreational shooter distribution,” Australian Journal of Forensic Sciences, vol. 51, sup1, pp. 176-179, 2019, doi: 10.1080/00450618.2019.1569148
- A. Zeichner, N. Levin, “More on the Uniqueness of Gunshot Residue (GSR) Particles,” J Forensic Sci., vol.42, no. 6, pp. 1027-1028, 1997.
- D. M. Gialamas, E. Rhodes, F. Sugarman, “LA Officers, Their Weapons And Their Hands: An Empirical Study Of GSR On The Hands Of Non-Shooting Police Officers,” J Forensic Sci., vol.40, no.6, pp. 1086-1089, 1995.
- A. Zeichner, N. Levin, “More On Uniqueness of Gunshot Residue (GSR) Particles,” J Forensic Sci. vol. 42, no. 6, p. 102, 1997.
- T. Trejos, C. V. Pyl, K. Menking-Hoggatt, A. L. Alvarado, L. E. Arroyo, “Fast identification of inorganic and organic gunshot residues by LIBS and electrochemical methods,” Forensic Chemistry, vol. 8, pp. 146–156, 2018.
- M. R. Rijnders, A. Stamouli, A. Bolck, “Comparison of Gsr Composition Occurring At Different Locations Around The Firing Position,” J Forensic Sci., vol. 55, no.3, pp. 616-623, 2010.
- I. Kara, “The influence of different skin types on GSR sampling by tape lifting for SEM analysis,” Microscopy Research and Technique, vol. 80, no.12, pp. 1310-1314, 2017.
- T. Jalanti, P. Henchoz, A. Gallusser, M. S. Bonfanti, “The Persistence Of Gunshot Residue On Shooters’ Hands,” Science & Justice, vol.39, no.1, pp. 48-52, 1999.
- Z. Brozek-Mucha, “Chemical and Morphological Study of Gunshot Residue Persisting on the Shooter by Means of Scanning Electron Microscopy and Energy Dispersive X-Ray Spectrometry,” Microscopy and Microanalysis, vol.17, no.6, pp. 972-982, 2011.
- B. Yüksel, A. O. Yiğiter, T. Bora, A. Bozkurt, M. Çavuş, “Determination of Antimony Element in Gunshot Residue Hand Swabs by Graphite Furnace Atomic Absorption Spectrometry,” Journal of Forensic Medicine, vol.30, no.2, pp. 114, 2016.