Stiffness is a mechanical property of vital importance to any material system and is typically
considered a static quantity. Recent work, however, has shown that novel materials with …

The recent decades have seen various attempts at accelerating the process of develo**
materials targeted towards specific applications. The performance required for a particular …

Transparent wood is considered a promising structural and light management material for
energy-efficient engineering applications. However, the solution-based delignification …

Architected metals and ceramics with nanoscale cellular designs, eg, nanolattices, are
currently subject of extensive investigation. By harnessing extreme material size effects …

Nanolattices exhibit attractive mechanical, energy conversion and optical properties, but it is
challenging to fabricate large nanolattices while maintaining the dense regular nanometre …

Fused deposition modeling (FDM) filaments made of recycled materials are desirable for
environmentally friendly and sustainable manufacturing of prototypes and load‐bearing …

Nowadays, achieving powerful electrochemical energy conversion and storage devices is a
major challenge of our society. Wood is a biodegradable and renewable material that …

Mechanical metamaterials, whose unique mechanical properties stem from their structural
design rather than material constituents, are gaining popularity in engineering applications …

The principal purpose of tissue engineering is to stimulate the injured or unhealthy tissues to
revive their primary function through the simultaneous use of chemical agents, cells, and …

The development of adsorbents into structured and robust forms remains a challenge for
emerging porous materials. In the context of porous boron nitride (BN), studies point to a …