The anisotropic heat conduction in solids is attractive for diverse applications such as
thermal management and thermal insulation. With highly anisotropic materials, the heat flow …

Solid-state batteries (SSBs) could offer improved energy density and safety, but the
evolution and degradation of electrode materials and interfaces within SSBs are distinct from …

Battery technologies have evolved rapidly over the past decade, including the advent of
solid-state batteries. In this time, it has become apparent that thermal management is …

The reduction of vibrational contributions to thermal transport and the search for material
classes with intrinsically low lattice thermal conductivities are at the heart of thermoelectric …

Pure sulfur (S8 and Li2S) all solid-state batteries inherently suffer from low electronic
conductivities, requiring the use of carbon additives, resulting in decreased active material …

Solid-state Na+ and Li+ batteries are promising energy storage technologies, suggesting
increased operational safety due to the replacement of the flammable organic electrolyte …

The impending energy crisis entails sustainable battery technologies with improved energy
density, reliability, safety and lifetime. Hence, it is essential to gain detailed insights into the …

Sodium metavanadate (NaVO3) is a promising low-cost candidate as a cathode material for
sodium-ion batteries (SIBs) owing to its high cycle performance. Its thermal transport …

Thermal transport in amorphous lithium‐sulfur (a‐LixS) is systematically investigated using
molecular dynamics and the contributions from different types of heat carriers are …

While battery researchers often focus on optimizing device performance to improve, for
example, battery capacity or charging rate, thermal effects have often been relegated to a …