Rugged nanoparticle tracers for mass tracking in explosive events

Rugged nanoparticle tracers for mass tracking in explosive events

Tracing the flow of solid matter during an explosion requires a rugged tag that can be measured by a unique identifiable signature. Silica-covered semiconductor quantum dots (QDs) provide a unique and tunable photoluminescent signature that emits from within a sacrificial outer layer. Five types of...

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Veröffentlicht in:MRS communications 2020-12, Vol.10 (4), p.594-599
Hauptverfasser: Hubbard, Lance, Sumner, Ryan, Liezers, Martin, Cell, Trevor, Reed, Clara, Uhnak, Nicolas, Allen, Caleb, Berry, Brittney, Currah, Hugh, Fuller, Erin, Kinney, Erin, Smith, Nathaniel, Foxe, Michael, Carman, April
Format: Artikel
Sprache:eng
Schlagworte:
Biomaterials
Characterization and Evaluation of Materials
debris identification
Ethanol
Experiments
Explosions
Laboratories
Ligands
Light
mass tracking
Materials Engineering
Materials Science
MILITARY TECHNOLOGY, WEAPONRY, AND NATIONAL DEFENSE
Morphology
Nanoparticles
Nanotechnology
Photoluminescence
Polymer Sciences
Quantum dots
Research Letters
semiconductor nanoparticles
Silicon dioxide
Tracers
Zinc sulfide
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Zusammenfassung:Tracing the flow of solid matter during an explosion requires a rugged tag that can be measured by a unique identifiable signature. Silica-covered semiconductor quantum dots (QDs) provide a unique and tunable photoluminescent signature that emits from within a sacrificial outer layer. Five types of silica-covered zinc sulfide QDs were synthesized and covalently bound to commercial luminescent powders. The combination of five dots and five powders enables a matrix of 25 unique tags. The tracers are shown to be tolerant of environments associated with chemical explosives and provides a unique tag to evaluate debris fields.
ISSN:2159-6859
2159-6867
DOI:10.1557/mrc.2020.70