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Time–Temperature Integrating Optical Sensors Based on Gradient Colloidal Crystals

Marius Schöttle, Thomas Tran, Tanja Feller, Markus Retsch

2021Advanced Materials29 citationsDOIOpen Access PDF

Abstract

Manipulation-free and autonomous recording of temperature states for extended periods of time is of increasing importance for food spoilage and battery safety assessment. An optical readout is preferred for low-tech visual inspection. Here, a concept for time-temperature integrators based on colloidal crystals is introduced. Two unique features in this class of advanced materials are combined: 1) the film-formation kinetics can be controlled by orders of magnitude based on mixtures of particles with distinct glass transition temperatures. 2) A gradual variation of the particle mixture along a linear gradient of the colloidal crystal enables local readout. Tailor-made latex particles of identical size but different glass transition temperatures provide a homogenous photonic stopband. The disappearance of this opalescence is directly related to the local particle ratio and the exposure to a time and temperature combination. This sensing material can be adjusted to report extended intermediate and short excessive temperature events, which makes it specifically suitable for long-term tracing and threshold applications.

Topics & Concepts

Materials scienceColloidal crystalColloidGlass transitionTemperature gradientParticle (ecology)Chemical physicsPhotonic crystalNanotechnologyOptoelectronicsPolymerChemical engineeringComposite materialOceanographyPhysicsEngineeringGeologyQuantum mechanicsPhotonic Crystals and ApplicationsPhotonic and Optical DevicesAdvanced Fiber Optic Sensors
Time–Temperature Integrating Optical Sensors Based on Gradient Colloidal Crystals | Litcius