Rapid synthesis of C-dots@PGV nanocomposites powders for development of latent fingermarks

Rapid synthesis of C-dots@PGV nanocomposites powders for development of latent fingermarks

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归属学者:

颜磊 ; 喻彦林

归属院系:

刑事侦查学院

摘要:

Novel fluorescent nanocomposites prepared by microwave irradiation and electrostatic adsorption have been formulated for developing latent fingermarks on various object surfaces. As-synthesized carbon dots@montmorillonite (C-dots@PGV) nanocomposites were characterized using UVvisible absorption spectroscopy, fluorescence spectroscopy, infrared spectroscopy, TEM/HRTEM, SEM and XRD. Due to its photoluminescence and stable chemical properties, C-dots@PGV nanocomposites powders with intense fluorescence produce sharp and clear development of latent fingermarks with good contrast and satisfactory ridge details. It is widely used for painted metal, glass, plastic and stainless steel surfaces, and the small, fine fluorescent nanocomposites demonstrate great advantages. Especially for multicolor surfaces, the fluorescent probe can help us to observe and photograph using UV light as excitation light source to eliminate background effects. After developing by facile powder technique, the prints emit strong violet-blue fluorescence under UV light (365 nm), at the same time, this nontoxic powder without any organic solvent and dyes can reduce harm to the operators.
© 2017 The Chemical Society of Japan.

语种:

英文

出版日期:

2017

收录:

EI

提交日期

2018-01-11

引用参考

Yu, Yanlin;Yan, Lei. Rapid synthesis of C-dots@PGV nanocomposites powders for development of latent fingermarks[J]. Bull. Chem. Soc. Jpn.,2017(11):1217-1223.

  • dc.title
  • Rapid synthesis of C-dots@PGV nanocomposites powders for development of latent fingermarks
  • dc.contributor.author
  • Yu, Yanlin;Yan, Lei
  • dc.contributor.author
  • Yu, Yanlin;Yan, Lei
  • dc.contributor.affiliation
  • School of Bioengineering, Chongqing University, No. 174 Shazhengjie, Shapingba District, Chongqing, 400044, China;School of Criminal Investigation, Southwest University of Political Science and Law, Forensic Science Engineering Research Center of Universities in Chongqing, No. 301 Baosheng Ave, Yubei District, Chongqing, 401120, China
  • dc.contributor.corresponding
  • Yan, Lei
  • dc.publisher
  • Bull. Chem. Soc. Jpn.
  • dc.publisher
  • Bull. Chem. Soc. Jpn.
  • dc.identifier.year
  • 2017
  • dc.identifier.issue
  • 11
  • dc.identifier.volume
  • 90
  • dc.identifier.page
  • 1217-1223
  • dc.date.issued
  • 2017
  • dc.language.iso
  • 英文
  • dc.subject
  • Absorption spectroscopy;Carbon;Fluorescence;Fluorescence spectroscopy;Infrared spectroscopy;Light sources;Microwave irradiation;Powder metals;Powders;Stainless steel;Background effects;Blue fluorescence;Electrostatic adsorption;Excitation light sources;Fluorescent probes;Stainless steel surface;Synthesized carbon;UV-visible absorption spectroscopy;Nanocomposites
  • dc.subject
  • Absorption spectroscopy;Carbon;Fluorescence;Fluorescence spectroscopy;Infrared spectroscopy;Light sources;Microwave irradiation;Powder metals;Powders;Stainless steel;Background effects;Blue fluorescence;Electrostatic adsorption;Excitation light sources;Fluorescent probes;Stainless steel surface;Synthesized carbon;UV-visible absorption spectroscopy;Nanocomposites
  • dc.description.abstract
  • Novel fluorescent nanocomposites prepared by microwave irradiation and electrostatic adsorption have been formulated for developing latent fingermarks on various object surfaces. As-synthesized carbon dots@montmorillonite (C-dots@PGV) nanocomposites were characterized using UVvisible absorption spectroscopy, fluorescence spectroscopy, infrared spectroscopy, TEM/HRTEM, SEM and XRD. Due to its photoluminescence and stable chemical properties, C-dots@PGV nanocomposites powders with intense fluorescence produce sharp and clear development of latent fingermarks with good contrast and satisfactory ridge details. It is widely used for painted metal, glass, plastic and stainless steel surfaces, and the small, fine fluorescent nanocomposites demonstrate great advantages. Especially for multicolor surfaces, the fluorescent probe can help us to observe and photograph using UV light as excitation light source to eliminate background effects. After developing by facile powder technique, the prints emit strong violet-blue fluorescence under UV light (365 nm), at the same time, this nontoxic powder without any organic solvent and dyes can reduce harm to the operators.
    © 2017 The Chemical Society of Japan.
  • dc.description.abstract
  • Novel fluorescent nanocomposites prepared by microwave irradiation and electrostatic adsorption have been formulated for developing latent fingermarks on various object surfaces. As-synthesized carbon dots@montmorillonite (C-dots@PGV) nanocomposites were characterized using UVvisible absorption spectroscopy, fluorescence spectroscopy, infrared spectroscopy, TEM/HRTEM, SEM and XRD. Due to its photoluminescence and stable chemical properties, C-dots@PGV nanocomposites powders with intense fluorescence produce sharp and clear development of latent fingermarks with good contrast and satisfactory ridge details. It is widely used for painted metal, glass, plastic and stainless steel surfaces, and the small, fine fluorescent nanocomposites demonstrate great advantages. Especially for multicolor surfaces, the fluorescent probe can help us to observe and photograph using UV light as excitation light source to eliminate background effects. After developing by facile powder technique, the prints emit strong violet-blue fluorescence under UV light (365 nm), at the same time, this nontoxic powder without any organic solvent and dyes can reduce harm to the operators.
    © 2017 The Chemical Society of Japan.
  • dc.identifier.issn
  • 0009-2673
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