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NCJRS Abstract

The document referenced below is part of the NCJRS Library collection. To conduct further searches of the collection, visit the NCJRS Abstracts Database. See the Obtain Documents page for direction on how to access resources online, via mail, through interlibrary loans, or in a local library.

 
  NCJ Number: NCJ 244882     Find in a Library
  Title: Smart Dusts: Creating a Stealthy, Stable and Statistically Unique Taggant
  Document URL: PDF 
  Author(s): Ryan Tomcik
  Journal: IDentification News  Volume:43  Issue:6  Dated:December 2013/January 2014  Pages:10 to 11
  Date Published: 2014
  Page Count: 2
  Annotation: This newsletter brief summarizes an interview with Dr. Ming Su of the Worcester Polytechnic Institute in which he discusses his research on covert metal nanoparticles funded by the U.S. Department of Justice, National Institute of Justice (NIJ).
  Abstract: This newsletter brief summarizes Ryan Tomcik’s, the International Association for Identification’s NIJ liason, interview with Dr. Ming Su of the Worcester Polytechnic Institute concerning his NIJ-funded research on covert metal nanoparticles and the potential benefits they may provide to crime scene investigators. These covert metal nanoparticles, a class of molecular taggants, are physical or chemical markers, such as microfibers, microscopic labels and security inks, that are currently employed in anti-counterfeiting measures. The analysis of statistically unique taggants in forensic science is a fundamental idea with respect to the interpretation of trace evidence that is collected from crime scenes and, it is Dr. Su’s belief, that taggant analysis could potentially become as accurate a measurement as DNA analysis. Dr. Su, a materials science and engineering Ph.D. with experience in nanotechnology and nanomedicine, has evolved his research interest into a new type of nanomaterials. Called phase change materials (PCM), these nanomaterials change their phases from solid to liquid at melting temperatures and could be assembled to form a new type of barcode system that will have extremely high capacity. Dr. Su’s project, Encapsulated Phase Change Nanoparticles as Thermally-Readable Covert Taggants, is being funded under NIJ award number 2012-DN-BX-K021.
  Main Term(s): Crime Scene Investigation
  Index Term(s): International Association for Identification ; National Institute of Justice (NIJ) ; Forensics/Forensic Sciences ; NIJ grant-related documents
  Type: Publication
  Country: United States of America
  Language: English
  Note: Republished with permission from the International Association for Identification.
   
  To cite this abstract, use the following link:
https://www.ncjrs.gov/App/Publications/abstract.aspx?ID=266963

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