An infrared source was used to heat up barcode, and a thermal imager (IR camera) was used to collect thermal images continuously while the barcode was heating up or cooling down. Thermal barcodes that consisted of four types of PCMs were decoded by identifying abrupt changes in temperature profiles during heating (cooling) process. Instead of identifying melting temperatures via direct contact in traditional differential scanning calorimetry, the infrared heating and imaging techniques provide a noncontact and highly sensitive way to characterize material properties and decode thermal barcode at high spatial resolution. (publisher abstract modified)
All-Optical Decoder for Rapid and Noncontact Readout of Thermal Barcodes
NCJ Number
255178
Journal
Journal of Physical Chemistry C Volume: 120 Issue: 38 Dated: 2016 Pages: 22110-22114
Date Published
2016
Length
5 pages
Annotation
This article reports on the development of an all-optical decoder for remote rapid readout of the thermal barcode made of solid-to-liquid phase-change materials (PCMs).
Abstract