Ionic conductors (ICs) find widespread applications across different fields, such as smart
electronic, ionotronic, sensor, biomedical, and energy harvesting/storage devices, and …

Substantial effort has been devoted to both scientific and technological developments of
wearable, flexible, semitransparent, and sensing electronics (eg, organic/perovskite …

Converting low-grade heat into useful electricity requires a technology that is efficient and
cost effective. Here, we demonstrate a cellulosic membrane that relies on sub-nanoscale …

Thermoelectric (TE) materials have the capability of converting heat into electricity, which
can improve fuel efficiency, as well as providing robust alternative energy supply in multiple …

Conversion of waste heat to voltage has the potential to significantly reduce the carbon
footprint of a number of critical energy sectors, such as the transportation and electricity …

Thermoelectric materials offer an alternative opportunity to tackle the energy crisis and
environmental problems by enabling the direct solid-state energy conversion. As a …

Thermoelectric materials are crucial in renewable energy conversion technologies to solve
the global energy crisis. They have been proven to be suitable for high-end technological …

Thermoelectric generators have attracted a wide research interest owing to their ability to
directly convert heat into electrical power. Moreover, the thermoelectric properties of …

The abundance of solar thermal energy and the widespread demands for waste heat
recovery make thermoelectric generators (TEGs) very attractive in harvesting low‐cost …

Here, by utilizing the special interaction between metal Cu and multi-walled carbon
nanotubes (CNTs), we have successfully realized the in situ growth of Cu2Se on the surface …