The demand for sophisticated tools and approaches in heat management and control has
triggered the fast development of fields that include conductive thermal metamaterials …

Classical thermodynamics often helps to passively describe macroscopic heat phenomena
of natural systems, which means people almost cannot change the heat phenomena, but …

Thermal metamaterials are mixture‐based materials that are engineered to manipulate,
control, and process the flow of heat, enabling numerous advanced thermal metadevices …

Thermal metamaterials provide rich control of heat transport which is becoming the
foundation of cutting-edge applications ranging from chip cooling to biomedical. However …

Naturally-occurring thermal materials usually possess specific thermal conductivity (κ),
forming a digital set of κ values. Emerging thermal metamaterials have been deployed to …

Recent investigations on non-Hermitian physics have unlocked new possibilities to
manipulate wave scattering on lossy materials. Coherent perfect absorption is such an effect …

The recently proposed space-time-coding electromagnetic metasurface introduces the
temporal dimension into artificial structure design, greatly expanding its digital application in …

Camouflage is a method evading predators in nature by assimilating into the environment.
To realize an artificial camouflage surface for displays and sensors, many researchers have …

Temperature measurement is particularly significant for various fields such as industrial
production and daily life, so high-performance thermal sensors become indispensable …

Emerging multiphysics metamaterials offer an exciting opportunity to regulate complex
physical processes. However, their functionality and tunability are limited by two severe …