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Concomitant Thermochromic and Phase‐Change Effect in a Switchable Spin Crossover Material for Efficient Passive Control of Day and Night Temperature Fluctuations

Esther Resines‐Urien, Miguel Ángel García García-Tuñón, M. Garcı́a-Hernández, Jose Alberto Rodríguez‐Velamazán, Ana Espinosa, José Sánchez Costa

2022Advanced Science24 citationsDOIOpen Access PDF

Abstract

The increasing environmental protection demand has prompted the development of passive thermal regulation systems that reduce temperature fluctuations in buildings. Here, it is demonstrated that the heat generated by the sun can trigger a spin crossover (SCO) in a molecule-base material, resulting in a concomitant color variation (from pink to white) and a phase transition. This leads to a cooling effect with respect to other thermochromic materials. In addition, when the material is cooled, a dampening of the temperature decrease is produced. Therefore, these materials can potentially be implemented for passive temperature control in buildings. Furthermore, SCO materials are remarkably stable upon cycling and highly versatile, which allows for the design of compounds with properties tailored for the desired climatic conditions and comfortable temperature.

Topics & Concepts

ThermochromismMaterials sciencePhase-change materialTemperature controlPhase (matter)Phase transitionSpin crossoverThermalOptoelectronicsThermodynamicsCondensed matter physicsChemistryPhysicsOrganic chemistryMagnetism in coordination complexesPerovskite Materials and ApplicationsPorphyrin and Phthalocyanine Chemistry
Concomitant Thermochromic and Phase‐Change Effect in a Switchable Spin Crossover Material for Efficient Passive Control of Day and Night Temperature Fluctuations | Litcius