Laves phases with their comparably simple crystal structure are very common intermetallic
phases and can be formed from element combinations all over the periodic table resulting in …

Negative thermal expansion (NTE), referring to the lattice contraction upon heating, has
been an attractive topic of solid-state chemistry and functional materials. The response of a …

By virtue of the unique advantages of compensating and controlling thermal expansion,
negative thermal expansion (NTE) materials have attracted great attention and have gained …

Negative thermal expansion (NTE) of materials is an intriguing phenomenon challenging the
concept of traditional lattice dynamics and of importance for a variety of applications …

Rapid progress in modern technologies demands zero thermal expansion (ZTE) materials
with multi-property profiles to withstand harsh service conditions. Thus far, the majority of …

Zero thermal expansion (ZTE) materials with the advantage of an invariable length with
varying temperatures are in high demand for modern industry but are relatively rare for …

Abstract Zero‐thermal‐expansion (ZTE) alloys, as dimensionally stable materials, are
urgently required in many fields, particularly in highly advanced modern industries. In this …

For oxides, controlling the concentration of oxygen vacancy is a useful way to optimize their
functional properties. However, when it comes to the field of negative thermal expansion …

Negative thermal expansion (NTE) materials can compensate for the normal positive
thermal expansion (PTE) of most materials, and thus have great potential applications …

The negative thermal expansion materials based on the magneto-volume transition are
usually poor in mechanical properties, severely inhibiting their application. Here in this …