Conspectus The crystal structure prediction (CSP) has emerged in recent years as a major
theme in research across many scientific disciplines in physics, chemistry, materials science …

Achieving room‐temperature superconductivity is an important goal in chemistry and
physics. Excitingly, pressure‐induced superconducting hydrides, a typical representative of …

Abstract Knowledge of carbonate compounds under high pressure inside Earth is key to
understanding the internal structure of the Earth, the deep carbon cycle and major …

The design of high-temperature ferrimagnetic materials is highly demanded for next-
generation functional spintronic devices. Here, we propose that the combination of …

Two-dimensional (2D) ferromagnets are the most promising materials for next-generation
spintronic devices. However, the low Curie temperatures (TCs) of known 2D ferromagnetic …

Limestone powder (LP) and sodium meta-aluminate (SMA) were used to fabricate calcium
carbonate-based cementitious material, as a solution to address the solid waste problem …

The search for intrinsic half-metallic ferromagnetic (FM) monolayers with a high Curie
temperature (TC), considerable magnetic anisotropy energy (MAE), and multiferroic …

Reacting praseodymium (IV) oxide with oxygen at 27 GPa in a diamond anvil cell yielded
the oxide peroxide Pr2IV (O2) O3, which was characterized by single crystal X‐ray diffraction …

Calcium-containing oxides are fundamental components of the Earth's crust and mantle.
Analysis of their structural behavior contributes to our understanding of the Earth's interior …

Icosahedral boron-rich solids exhibit outstanding mechanical properties, but the crystal
structure of this prominent class of materials has long remained enigmatic. Here, we report …