Non-toxic luminescent Au Nanoclusters@Montmorillonite nanocomposites powders for latent fingerprint development

Non-toxic luminescent Au Nanoclusters@Montmorillonite nanocomposites powders for latent fingerprint development

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归属学者:

颜磊 ; 喻彦林

归属院系:

刑事侦查学院

作者:

Yu, Yanlin ; Yan, Lei ;Xia, Zhining

摘要:

Non-toxic Au nanoclusters@montmorillonite (AuNCs@MMT) nanocomposites with strong red fluorescence are prepared by a microwave (MW)-assisted synthesis method and immobilize Au NCs into sodium MMT clay matrix via electrostatic interaction. Due to the immobilization of Au NCs in the layered structure of the MMT clay matrix, the formative AuNCs@MMT nanocomposites show high emission, stable chemical features and less toxicity. The obtained Au NCs and AuNCs@MMT nanopowders were characterized by using UV-visible absorption spectroscopy, fluorescence spectroscopy, infrared spectroscopy, TEM/HRTEM, SEM and XRD etc. to depict their sizes, microstructures and optical features. Due to their environmentally friendly preparation, time-saving procedure, user-friendly operation, low cost, efficient UV-visible radiation-dependent photoluminescence and good affinity with finger residues, the as-synthesized AuNCs@MMT nanopowders are employed as a alternative florescent developing reagent for enhancing latent fingerprints deposited on various object surfaces (such as glass, porcelain enamel, stainless steel, painted metal, plastic products, weighing papers etc.) for individual identification. As results, the enhanced fingerprints with clear patterns and satisfactory ridge details were obtained by using as-prepared AuNCs@MMT nanopowders. At the same time, intensively red fluorescence as well as good contrast without background staining of developed prints demonstrated great advantages for surfaces with multicolour. Because of their good sensitivity, non-toxicity and strong resistance to background interference, the as-prepared fluorescent nanocomposites are an actual alternative to conventional powdering reagents, which may find potential application in forensic detection.
© 2016 The Royal Society of Chemistry.

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;Xia, Zhining. Non-toxic luminescent Au Nanoclusters@Montmorillonite nanocomposites powders for latent fingerprint development[J]. RSC Adv.,2017(79):50106-50112.

  • dc.title
  • Non-toxic luminescent Au Nanoclusters@Montmorillonite nanocomposites powders for latent fingerprint development
  • dc.contributor.author
  • Yu, Yanlin;Yan, Lei;Xia, Zhining
  • dc.contributor.author
  • Yu, Yanlin;Yan, Lei;Xia, Zhining
  • dc.contributor.affiliation
  • School of Criminal Investigation, Southwest University of Political Science and Law, Forensic Science Engineering Research Center of Universities in Chongqing, Chongqing, 401120, China;School of Bioengineering, Chongqing University, Chongqing, 400044, China
  • dc.contributor.corresponding
  • Yan, Lei
  • dc.publisher
  • RSC Adv.
  • dc.publisher
  • RSC Adv.
  • dc.identifier.year
  • 2017
  • dc.identifier.issue
  • 79
  • dc.identifier.volume
  • 7
  • dc.identifier.page
  • 50106-50112
  • dc.date.issued
  • 2017
  • dc.language.iso
  • 英文
  • dc.subject
  • Absorption spectroscopy;Clay minerals;Fluorescence;Fluorescence spectroscopy;Gold;Infrared spectroscopy;Nanoclusters;Nanocomposites;Nanostructured materials;Plastic products;Stainless steel;Toxicity;Chemical features;Forensic detection;Individual identification;Latent fingerprint;Layered Structures;Montmorillonite nanocomposites;Porcelain enamel;UV-visible absorption spectroscopy;Cesium compounds
  • dc.subject
  • Absorption spectroscopy;Clay minerals;Fluorescence;Fluorescence spectroscopy;Gold;Infrared spectroscopy;Nanoclusters;Nanocomposites;Nanostructured materials;Plastic products;Stainless steel;Toxicity;Chemical features;Forensic detection;Individual identification;Latent fingerprint;Layered Structures;Montmorillonite nanocomposites;Porcelain enamel;UV-visible absorption spectroscopy;Cesium compounds
  • dc.description.abstract
  • Non-toxic Au nanoclusters@montmorillonite (AuNCs@MMT) nanocomposites with strong red fluorescence are prepared by a microwave (MW)-assisted synthesis method and immobilize Au NCs into sodium MMT clay matrix via electrostatic interaction. Due to the immobilization of Au NCs in the layered structure of the MMT clay matrix, the formative AuNCs@MMT nanocomposites show high emission, stable chemical features and less toxicity. The obtained Au NCs and AuNCs@MMT nanopowders were characterized by using UV-visible absorption spectroscopy, fluorescence spectroscopy, infrared spectroscopy, TEM/HRTEM, SEM and XRD etc. to depict their sizes, microstructures and optical features. Due to their environmentally friendly preparation, time-saving procedure, user-friendly operation, low cost, efficient UV-visible radiation-dependent photoluminescence and good affinity with finger residues, the as-synthesized AuNCs@MMT nanopowders are employed as a alternative florescent developing reagent for enhancing latent fingerprints deposited on various object surfaces (such as glass, porcelain enamel, stainless steel, painted metal, plastic products, weighing papers etc.) for individual identification. As results, the enhanced fingerprints with clear patterns and satisfactory ridge details were obtained by using as-prepared AuNCs@MMT nanopowders. At the same time, intensively red fluorescence as well as good contrast without background staining of developed prints demonstrated great advantages for surfaces with multicolour. Because of their good sensitivity, non-toxicity and strong resistance to background interference, the as-prepared fluorescent nanocomposites are an actual alternative to conventional powdering reagents, which may find potential application in forensic detection.
    © 2016 The Royal Society of Chemistry.
  • dc.description.abstract
  • Non-toxic Au nanoclusters@montmorillonite (AuNCs@MMT) nanocomposites with strong red fluorescence are prepared by a microwave (MW)-assisted synthesis method and immobilize Au NCs into sodium MMT clay matrix via electrostatic interaction. Due to the immobilization of Au NCs in the layered structure of the MMT clay matrix, the formative AuNCs@MMT nanocomposites show high emission, stable chemical features and less toxicity. The obtained Au NCs and AuNCs@MMT nanopowders were characterized by using UV-visible absorption spectroscopy, fluorescence spectroscopy, infrared spectroscopy, TEM/HRTEM, SEM and XRD etc. to depict their sizes, microstructures and optical features. Due to their environmentally friendly preparation, time-saving procedure, user-friendly operation, low cost, efficient UV-visible radiation-dependent photoluminescence and good affinity with finger residues, the as-synthesized AuNCs@MMT nanopowders are employed as a alternative florescent developing reagent for enhancing latent fingerprints deposited on various object surfaces (such as glass, porcelain enamel, stainless steel, painted metal, plastic products, weighing papers etc.) for individual identification. As results, the enhanced fingerprints with clear patterns and satisfactory ridge details were obtained by using as-prepared AuNCs@MMT nanopowders. At the same time, intensively red fluorescence as well as good contrast without background staining of developed prints demonstrated great advantages for surfaces with multicolour. Because of their good sensitivity, non-toxicity and strong resistance to background interference, the as-prepared fluorescent nanocomposites are an actual alternative to conventional powdering reagents, which may find potential application in forensic detection.
    © 2016 The Royal Society of Chemistry.
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