1. Reusable Structural Colored Nanostructure for Powerless Temperature and Humidity Sensing.
- Author
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Cencillo‐Abad, Pablo, Mastranzo‐Ortega, Pamela, Appavoo, Divambal, Guo, Tianyi, Zhai, Lei, Sanchez‐Mondragon, Javier, and Chanda, Debashis
- Subjects
STRUCTURAL colors ,THERMORESPONSIVE polymers ,NANOSTRUCTURED materials ,FINITE differences ,MOBILE apps ,TEMPERATURE ,HUMIDITY ,DEW - Abstract
Nanostructured materials have enabled new ways of controlling the light–matter interaction, opening new routes for exciting applications, in display technologies and colorimetric sensing, among others. In particular, metallic nanoparticles permit the production of color structures out of colorless materials. These plasmonic structural colors are sensitive to the environment and thus offer an interesting platform for sensing. Here, a self‐assembly of aluminum nanoparticles in close proximity of a mirror is spaced by an ultrathin poly(N‐isopropylacrylamide) (PNIPAM) layer. Hybridizing the plasmonic system with the active polymer layer, a thermoresponsive gap‐plasmon architecture is formed that transduces changes in the temperature and relative humidity of the environment into color changes. By harnessing the environmentally induced structural changes of PNIPAM, it was estimated from the finite difference time domain simulation that the resonance can be tuned 7 nm per every 1 nm change in thickness, resulting in color variation. Importantly, these fully reversible changes can be used for reusable powerless humidity and temperature colorimetric sensing. Crucially if condensation on the structure happens, the polymer layer is deformed beyond recovery and the colors are washed away. We leverage this effect to produce tamper‐proof dew labels that a straightforward smartphone app can read by taking a picture. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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