Owing to their capabilities of solid-state conversion between heat and electricity, zero-
emission, and high flexibility, flexible thermoelectric devices (F-TEDs) have exhibited great …

Efficient manipulation of thermal conductivity and fundamental understanding of the
microscopic mechanisms of phonon scattering in crystalline solids are crucial to achieve …

The p-type characteristic of solution-processed metal halide perovskite transistors means
that they could be used in combination with their n-type counterparts, such as indium …

Smart textiles are composed of multi-structured functional materials capable of producing
sensory responses and energy in response to environmental, chemical and physical stimuli …

Given the complex practical environment and application fields, it is urgent to integrate
various functions into one material. Based on the introduction of nano-sites, the creation of …

The rising demand for energy has accelerated the search for clean and renewable sources
and newer approaches towards efficient energy management. One of the most promising …

Chemical bonding present in crystalline solids has a significant impact on how heat moves
through a lattice, and with the right chemical tuning, one can achieve extremely low thermal …

We report first-principle calculations of the recently synthesized Pb-free double perovskite
Cs2PtI6, which we found to have the potential to be an excellent thermoelectric material …

The diamondoid compounds are a large family of important semiconductors, which possess
various unique transport properties and had been widely investigated in the fields of …

Entropy-engineered materials are garnering considerable attention owing to their excellent
mechanical and transport properties, such as their high thermoelectric performance …