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The Role of Silica Nanoparticle in Fingerprint Visualization Studies

Yıl 2022, Cilt 6, Sayı 1, 27 - 41, 30.06.2022
https://doi.org/10.29002/asujse.1035557

Öz

Fingerprints are the most important evidence that allows the criminal to be profiled in a crime scene investigation. A fingerprint is considered evidence due to its unique characteristics. Fingerprints are not visible and therefore need to be visualized after being recovered from the scene. Many methods are used for visualization purposes. The most commonly used methods are dusting, Ninhydrin, DFO, Super Glue, etc. the methods are not. In addition to these methods, other chemicals, physical and optical methods have recently been uncovered. Due to technological developments affecting the field of Forensic Sciences, new dimensions have also been introduced to fingerprint studies. The use of nanoparticles has gained momentum, especially in fingerprint visualization studies. In the use of nanoparticles, silica nanoparticles are used in studies. Objective: this study, it was aimed to determine the level of use of silica nanoparticles in fingerprint visualization studies. Based on the data obtained for this purpose, which silica nanoparticle is most used, which method is most used in silica nanoparticle synthesis, what are the dimensions of the resulting molecules, which technique is most preferred for visualization, etc. it is aimed to provide researchers with up-to-date information by determining the parameters? Method: In this study, the systematic literature review was preferred to collect research data. The level of use of silica nanoparticles has been investigated in fingerprint visualization studies between 2016 and 2020. Data collection was obtained through scientific studies. Parameters such as silica nanoparticle molecules, synthesis methods, absorbent values, surface types used, imaging types were compared in the obtained publications.

Kaynakça

  • [1] V. Divya, B. Agrawal, A. Srivastav, P. Bhatt, S. Bhowmik, K. Yadvendra Agrawal, P. Maity, Fluorescent amphiphilic silica nanopowder for developing latent fingerprints, Australian Journal of Forensic Sciences 52:3 (2018) 354-367.
  • [2] L. Meng, Y. Ren, Z. Zhou, C. Li, C. Wang, S. Fu, Monodisperse silica nanoparticle suspension for developing latent blood fingermarks, Forensic Sciences Research 5:1 (2020) 38-46.
  • [3] R. Rajan, Y. Zakaria, S. Shamsuddin, N.F.N. Hassan, Fluorescent variant of silica nanoparticle powder synthesized from rice husk for latent fingerprint development, Egyptian Journal of Forensic Sciences 9 (2019) 50.
  • [4] H. Salmaner, Suç Yeri İncelemesi, Elif Matbaacılık, Şanlıurfa, 2003.
  • [5] M.F. Brown, Criminal Investigation Law and Practice, Copyright by Butterworth – Heinemann, Printed in the USA, 1998.
  • [6] H.C. Lee, T.M.Palmbach, M. Miller, Henry Lee’s Crime Scene Handbook, Academic Press, San Diego, CA, 2001.
  • [7] T.J. Fish, L.S. Miller, M.C. Braswell, E.W. Wallace, Crime Scene Investigation, 3rd Edition, Publisher'sTransferred to Taylor & Francis, 2014.
  • [8] R.M. Garnerd, Crime Scene Photography: US Perspective, 2009.
  • [9] E. Çetli, A. Çalışkan, F. Koç, V. Özkoçak, The Importance of Anthropological and Genetic Data in Forensic Photography and Image Analysis, Eurasian Art & Humanities Journal 11 (2019) 1-14.
  • [10] H.C. Lee, E.M. Pagliaro, Forensic Evidence and Crime Scene Investigation, J. Forensic Investigation, 1:2 (2013) 5.
  • [11] G.L. Thomas, The physics of fingerprints and their detection, J. Phys. E: Sci. Instrum. 11:8 (1978) 722-731.
  • [12] M. Bayer, Olay Yeri İnceleme Kriminal Laboratuvar Analizleri, Songür Yayıncılık, Ankara, 2003.
  • [13] X. Jiang, Fingerprint Classification. In: Li S.Z., Jain A. (eds), Encyclopedia of Biometrics, Springer, Boston, MA, 2009.
  • [14] K. Karu, A.K. Jain, Fingerprint Classification, Pattern Recognition 29:3 (1996) 389-404.
  • [15] D. Meuwly, Fingerprint, Forensic Evidence of. In: Li S.Z., Jain A. (eds), Encyclopedia of Biometrics, Springer, Boston, MA, 2009.
  • [16] L. Hong and A. K. Jain, Classification of fingerprint images, MSU Technical Report, MSUCPS:TR98-18, June 1998.
  • [17] M.Z. Hacımurtazaoğlu, Ninhidrin Gözenekli Yüzeylerde Vücut İzi Tayininde Kullanılması ve Gözenekli Yüzeylerde Uygulanan Süper Glu Yöntemi ile Oluşan Vücut İzlerinin ANT ile Boyanarak Görünür Hale Getirilmesi. Recep Tayyip Erdoğan Üniversitesi Fen Bilimleri Enstitüsü Kimya ABD, Yüksek Lisans Tezi. Rize, 2016
  • [18] M. Kaygısız, Kriminalistikte Parmak İzi İncelemesi, İstanbul Üniversitesi Adli Tıp Enstitüsü Fen Bilimleri ABD, Yüksek Lisans Tezi, İstanbul, 1995.
  • [19] E. Tezbaşaran, Ninhidrinin Bazı Aromatik Aminlerle Olan Reaksiyonlarının Ft-Ir Sıvı Hücresinde İncelenmesi, Balıkesir Üniversitesi Fen Bilimleri Enstitüsü Kimya Anabilim Dalı, Yüksek Lisans Tezi. Balıkesir, 2011.
  • [20] J. Almog and H. Glasner, Ninhydrin Thiohemiketals: Basic Research Towards Improved Fingermark Detection Techniques Employing Nano-Technology, J. Forensic Sci. 55:1 (2010) 215-220.
  • [21] A. Lewkowicz, K. Baranowska, P. Bojarski, M. Jozefowicz, Solvent-dependent spectroscopic properties of fingerprint reagent - 1,8- Diazafluoren-9-one, Journal of Molecular Liquids 285 (2019) 754-765.
  • [22] H.J. Kobus, R.N. Warrener, M. Stoilovic, Two Simple Staining Procedures which Improve the Contrast and Ridge Detail of Fingerprints Developed with “Super Glue” (Cyanoacrylate Ester), Forensic Science International 23 (1983) 233-240.
  • [23] G.S. Bumbrah, Cyanoacrylate fuming method for detection of latent fingermarks: a review, Egyptian Journal of Forensic Sciences 7:4 (2017) 2-8.
  • [24] M. Sorbiun, E.S. Mehr, A. Ramazani, S.T. Fardood, Green Synthesis of Zinc Oxide and Copper Oxide Nanoparticles Using Aqueous Extract of Oak Fruit Hull (Jaft) and Comparing Their Photocatalytic Degradation of Basic Violet 3, Int. J. Environ. Res. 12:1 (2018) 29-37.
  • [25] S. Yeshodamma, D.V. Sunitha, R.B. Basavaraj, G.P. Darshan, B.D. Prasad, B.D., H.J. Nagabhushana, Monovalent ions co-doped SrTiO3:Pr3+ nanostructures for the visualization of latent fingerprints and can be red component for solid state devices, J. Lumin. 208 (2019) 371-387.
  • [26] A. Mobaraki, Z. Hosseinzadeh, I. Yavari, Lipophilic magnetic nanocomposite of Fe3O4@SiO2@Me for efficient visualization of latent fingerprints on various surfaces, J. Iran Chem. Soc. 16:8 (2019) 1601-1610.
  • [27] A. Askerbay, A. Molkenova, T.S. Atabaev, Latent fingerprint detection with luminescent Y2O3:Eu3+ nanoparticles, Materials Today: Proceedings 20 (2020) 245-248.
  • [28] Y. Yang, R. Liu, Q. Cui,W. Xu, R. Peng, J. Wang, L. Li, Red-emissive conjugated oligomer/silica hybrid nanoparticles with high affinity and application for latent fingerprint detection, Colloids and Surfaces A 565 (2019) 118-130.
  • [29] M. Tang, B. Zhu, Y. Qu, Z. Jin, S. Bai, F. Chai, L. Chen, C. Wang, F. Qu, Fluorescent silicon nanoparticles as dually emissive probes for copper(II) and visualization of latent fingerprints, Microchimica Acta 187 (2020) 65.
  • [30] E. Alsolmy, W. M. Abdelwahab, G. Patonay, A Comparative Study of Fluorescein Isothiocyanate-Encapsulated Silica Nanoparticles Prepared in Seven Different Routes for Developing Fingerprints on Non-Porous Surfaces, Journal of Fluorescence 28 (2018) 1049-1058.

Yıl 2022, Cilt 6, Sayı 1, 27 - 41, 30.06.2022
https://doi.org/10.29002/asujse.1035557

Öz

Kaynakça

  • [1] V. Divya, B. Agrawal, A. Srivastav, P. Bhatt, S. Bhowmik, K. Yadvendra Agrawal, P. Maity, Fluorescent amphiphilic silica nanopowder for developing latent fingerprints, Australian Journal of Forensic Sciences 52:3 (2018) 354-367.
  • [2] L. Meng, Y. Ren, Z. Zhou, C. Li, C. Wang, S. Fu, Monodisperse silica nanoparticle suspension for developing latent blood fingermarks, Forensic Sciences Research 5:1 (2020) 38-46.
  • [3] R. Rajan, Y. Zakaria, S. Shamsuddin, N.F.N. Hassan, Fluorescent variant of silica nanoparticle powder synthesized from rice husk for latent fingerprint development, Egyptian Journal of Forensic Sciences 9 (2019) 50.
  • [4] H. Salmaner, Suç Yeri İncelemesi, Elif Matbaacılık, Şanlıurfa, 2003.
  • [5] M.F. Brown, Criminal Investigation Law and Practice, Copyright by Butterworth – Heinemann, Printed in the USA, 1998.
  • [6] H.C. Lee, T.M.Palmbach, M. Miller, Henry Lee’s Crime Scene Handbook, Academic Press, San Diego, CA, 2001.
  • [7] T.J. Fish, L.S. Miller, M.C. Braswell, E.W. Wallace, Crime Scene Investigation, 3rd Edition, Publisher'sTransferred to Taylor & Francis, 2014.
  • [8] R.M. Garnerd, Crime Scene Photography: US Perspective, 2009.
  • [9] E. Çetli, A. Çalışkan, F. Koç, V. Özkoçak, The Importance of Anthropological and Genetic Data in Forensic Photography and Image Analysis, Eurasian Art & Humanities Journal 11 (2019) 1-14.
  • [10] H.C. Lee, E.M. Pagliaro, Forensic Evidence and Crime Scene Investigation, J. Forensic Investigation, 1:2 (2013) 5.
  • [11] G.L. Thomas, The physics of fingerprints and their detection, J. Phys. E: Sci. Instrum. 11:8 (1978) 722-731.
  • [12] M. Bayer, Olay Yeri İnceleme Kriminal Laboratuvar Analizleri, Songür Yayıncılık, Ankara, 2003.
  • [13] X. Jiang, Fingerprint Classification. In: Li S.Z., Jain A. (eds), Encyclopedia of Biometrics, Springer, Boston, MA, 2009.
  • [14] K. Karu, A.K. Jain, Fingerprint Classification, Pattern Recognition 29:3 (1996) 389-404.
  • [15] D. Meuwly, Fingerprint, Forensic Evidence of. In: Li S.Z., Jain A. (eds), Encyclopedia of Biometrics, Springer, Boston, MA, 2009.
  • [16] L. Hong and A. K. Jain, Classification of fingerprint images, MSU Technical Report, MSUCPS:TR98-18, June 1998.
  • [17] M.Z. Hacımurtazaoğlu, Ninhidrin Gözenekli Yüzeylerde Vücut İzi Tayininde Kullanılması ve Gözenekli Yüzeylerde Uygulanan Süper Glu Yöntemi ile Oluşan Vücut İzlerinin ANT ile Boyanarak Görünür Hale Getirilmesi. Recep Tayyip Erdoğan Üniversitesi Fen Bilimleri Enstitüsü Kimya ABD, Yüksek Lisans Tezi. Rize, 2016
  • [18] M. Kaygısız, Kriminalistikte Parmak İzi İncelemesi, İstanbul Üniversitesi Adli Tıp Enstitüsü Fen Bilimleri ABD, Yüksek Lisans Tezi, İstanbul, 1995.
  • [19] E. Tezbaşaran, Ninhidrinin Bazı Aromatik Aminlerle Olan Reaksiyonlarının Ft-Ir Sıvı Hücresinde İncelenmesi, Balıkesir Üniversitesi Fen Bilimleri Enstitüsü Kimya Anabilim Dalı, Yüksek Lisans Tezi. Balıkesir, 2011.
  • [20] J. Almog and H. Glasner, Ninhydrin Thiohemiketals: Basic Research Towards Improved Fingermark Detection Techniques Employing Nano-Technology, J. Forensic Sci. 55:1 (2010) 215-220.
  • [21] A. Lewkowicz, K. Baranowska, P. Bojarski, M. Jozefowicz, Solvent-dependent spectroscopic properties of fingerprint reagent - 1,8- Diazafluoren-9-one, Journal of Molecular Liquids 285 (2019) 754-765.
  • [22] H.J. Kobus, R.N. Warrener, M. Stoilovic, Two Simple Staining Procedures which Improve the Contrast and Ridge Detail of Fingerprints Developed with “Super Glue” (Cyanoacrylate Ester), Forensic Science International 23 (1983) 233-240.
  • [23] G.S. Bumbrah, Cyanoacrylate fuming method for detection of latent fingermarks: a review, Egyptian Journal of Forensic Sciences 7:4 (2017) 2-8.
  • [24] M. Sorbiun, E.S. Mehr, A. Ramazani, S.T. Fardood, Green Synthesis of Zinc Oxide and Copper Oxide Nanoparticles Using Aqueous Extract of Oak Fruit Hull (Jaft) and Comparing Their Photocatalytic Degradation of Basic Violet 3, Int. J. Environ. Res. 12:1 (2018) 29-37.
  • [25] S. Yeshodamma, D.V. Sunitha, R.B. Basavaraj, G.P. Darshan, B.D. Prasad, B.D., H.J. Nagabhushana, Monovalent ions co-doped SrTiO3:Pr3+ nanostructures for the visualization of latent fingerprints and can be red component for solid state devices, J. Lumin. 208 (2019) 371-387.
  • [26] A. Mobaraki, Z. Hosseinzadeh, I. Yavari, Lipophilic magnetic nanocomposite of Fe3O4@SiO2@Me for efficient visualization of latent fingerprints on various surfaces, J. Iran Chem. Soc. 16:8 (2019) 1601-1610.
  • [27] A. Askerbay, A. Molkenova, T.S. Atabaev, Latent fingerprint detection with luminescent Y2O3:Eu3+ nanoparticles, Materials Today: Proceedings 20 (2020) 245-248.
  • [28] Y. Yang, R. Liu, Q. Cui,W. Xu, R. Peng, J. Wang, L. Li, Red-emissive conjugated oligomer/silica hybrid nanoparticles with high affinity and application for latent fingerprint detection, Colloids and Surfaces A 565 (2019) 118-130.
  • [29] M. Tang, B. Zhu, Y. Qu, Z. Jin, S. Bai, F. Chai, L. Chen, C. Wang, F. Qu, Fluorescent silicon nanoparticles as dually emissive probes for copper(II) and visualization of latent fingerprints, Microchimica Acta 187 (2020) 65.
  • [30] E. Alsolmy, W. M. Abdelwahab, G. Patonay, A Comparative Study of Fluorescein Isothiocyanate-Encapsulated Silica Nanoparticles Prepared in Seven Different Routes for Developing Fingerprints on Non-Porous Surfaces, Journal of Fluorescence 28 (2018) 1049-1058.

Ayrıntılar

Birincil Dil İngilizce
Konular Temel Bilimler
Bölüm Research Article
Yazarlar

Elif ÇETLİ> (Sorumlu Yazar)
HİTİT ÜNİVERSİTESİ
0000-0002-4425-3064
Türkiye


Vahdet ÖZKOÇAK>
HİTİT ÜNİVERSİTESİ
0000-0002-4603-2548
Türkiye


Demet TATAR>
HİTİT ÜNİVERSİTESİ
0000-0002-9317-3263
Türkiye

Destekleyen Kurum This study was produced from the master's thesis of the corresponding author.
Yayımlanma Tarihi 30 Haziran 2022
Başvuru Tarihi 11 Aralık 2021
Kabul Tarihi 24 Mart 2022
Yayınlandığı Sayı Yıl 2022, Cilt 6, Sayı 1

Kaynak Göster

Bibtex @araştırma makalesi { asujse1035557, journal = {Aksaray University Journal of Science and Engineering}, eissn = {2587-1277}, address = {Aksaray Üniversitesi, Fen Bilimleri Enstitüsü, Merkez Kampüs, 68100 Aksaray}, publisher = {Aksaray Üniversitesi}, year = {2022}, volume = {6}, number = {1}, pages = {27 - 41}, doi = {10.29002/asujse.1035557}, title = {The Role of Silica Nanoparticle in Fingerprint Visualization Studies}, key = {cite}, author = {Çetli, Elif and Özkoçak, Vahdet and Tatar, Demet} }
APA Çetli, E. , Özkoçak, V. & Tatar, D. (2022). The Role of Silica Nanoparticle in Fingerprint Visualization Studies . Aksaray University Journal of Science and Engineering , 6 (1) , 27-41 . DOI: 10.29002/asujse.1035557
MLA Çetli, E. , Özkoçak, V. , Tatar, D. "The Role of Silica Nanoparticle in Fingerprint Visualization Studies" . Aksaray University Journal of Science and Engineering 6 (2022 ): 27-41 <http://asujse.aksaray.edu.tr/tr/pub/issue/68039/1035557>
Chicago Çetli, E. , Özkoçak, V. , Tatar, D. "The Role of Silica Nanoparticle in Fingerprint Visualization Studies". Aksaray University Journal of Science and Engineering 6 (2022 ): 27-41
RIS TY - JOUR T1 - The Role of Silica Nanoparticle in Fingerprint Visualization Studies AU - ElifÇetli, VahdetÖzkoçak, DemetTatar Y1 - 2022 PY - 2022 N1 - doi: 10.29002/asujse.1035557 DO - 10.29002/asujse.1035557 T2 - Aksaray University Journal of Science and Engineering JF - Journal JO - JOR SP - 27 EP - 41 VL - 6 IS - 1 SN - -2587-1277 M3 - doi: 10.29002/asujse.1035557 UR - https://doi.org/10.29002/asujse.1035557 Y2 - 2022 ER -
EndNote %0 Aksaray University Journal of Science and Engineering The Role of Silica Nanoparticle in Fingerprint Visualization Studies %A Elif Çetli , Vahdet Özkoçak , Demet Tatar %T The Role of Silica Nanoparticle in Fingerprint Visualization Studies %D 2022 %J Aksaray University Journal of Science and Engineering %P -2587-1277 %V 6 %N 1 %R doi: 10.29002/asujse.1035557 %U 10.29002/asujse.1035557
ISNAD Çetli, Elif , Özkoçak, Vahdet , Tatar, Demet . "The Role of Silica Nanoparticle in Fingerprint Visualization Studies". Aksaray University Journal of Science and Engineering 6 / 1 (Haziran 2022): 27-41 . https://doi.org/10.29002/asujse.1035557
AMA Çetli E. , Özkoçak V. , Tatar D. The Role of Silica Nanoparticle in Fingerprint Visualization Studies. Aksaray J. Sci. Eng.. 2022; 6(1): 27-41.
Vancouver Çetli E. , Özkoçak V. , Tatar D. The Role of Silica Nanoparticle in Fingerprint Visualization Studies. Aksaray University Journal of Science and Engineering. 2022; 6(1): 27-41.
IEEE E. Çetli , V. Özkoçak ve D. Tatar , "The Role of Silica Nanoparticle in Fingerprint Visualization Studies", Aksaray University Journal of Science and Engineering, c. 6, sayı. 1, ss. 27-41, Haz. 2022, doi:10.29002/asujse.1035557

Aksaray J. Sci. Eng. | e-ISSN: 2587-1277 | Period: Biannually | Founded: 2017 | Publisher: Aksaray University | https://asujse.aksaray.edu.tr


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