Thermal conductivity is one of the most fundamental properties of solid materials. The
thermal conductivity of ideal crystal materials has been widely studied over the past …

Building sensible processing-structure-property (PSP) links to gain fundamental insights and
understanding of materials behavior has been the focus of many works in computational …

Thermal transport in amorphous materials has remained one of the fundamental questions
in solid state physics while involving a very large field of applications. Using a heat …

We review the status of research on thermal/phonon transport in disordered materials. The
term disordered materials is used here to encompass both structural and compositional …

Organic‐inorganic hybrid halide perovskites show a unique two‐channel thermal transport
through propagons and diffusons, largely affecting other energy carriers for opto‐and …

The time-dependent response of structural materials dominates our aging infrastructure's life
expectancy and has important resilience implications. For calcium-silicate-hydrates, the glue …

Calcium-silicate-hydrate (CSH), the main binding phase in cementitious materials,
possesses a complex multiscale porous texture where nanosized particles interact …

A bio-inspired, plant-derived polyphenol, tannic acid (TA) was identified as a renewable
admixture to improve the compressive strength of concretes. Aiming to understand the …

Calcium-silicate-hydrate (C–S–H) is the major binding phase responsible for strength and
durability of cementitious materials. The cohesive properties of C–S–H are directly related to …

We study the conductive heat transport through calcium silicate hydrate (CSH) and
organically cross-linked CSH via experiments, micromechanical homogenization theory …