A dynamic thermoregulatory material inspired by squid skin

Effective thermal management is critical for the operation of many modern technologies, such as electronic circuits, smart clothing, and building environment control systems. By leveraging the static infrared-reflecting design of the space blanket and drawing inspiration from the dynamic color-changing ability of squid skin, we have developed a composite material with tunable thermoregulatory properties. Our material demonstrates an on/off switching ratio of ~25 for the transmittance, regulates a heat flux of ~36 W/m ² with an estimated mechanical power input of ~3 W/m ², and features a dynamic environmental setpoint temperature window of ~8 °C. Moreover, the composite can manage one fourth of the metabolic heat flux expected for a sedentary individual and can also modulate localized changes in a wearer’s body temperature by nearly 10-fold. Due to such functionality and associated figures of merit, our material may substantially reduce building energy consumption upon widespread deployment and adoption.

Thermoregulatory platforms that combine the advantages of passive and active thermal management systems have remained elusive. Here, the authors draw inspiration from the static infrared-reflecting space blanket and dynamic color-changing squid skin to develop a composite material that addresses this challenge.