Themed collection 2025 Materials Chemistry Frontiers Review-type Articles

The concept of recyclability or repairability provides a new approach for extending the service life of glassy polymers and addressing environmental pollution issues.

A schematic of the review, illustrating the structures, preparation methods, properties and applications of emerging group 15 and 16 Xenes.

This review focuses on recent advances in the synthesis and catalytic mechanisms of nanozyme-based materials and application in environmental pollutant detection and remediation, and discusses current challenges and an outlook for future.

Piezoelectric polymers exhibit antimicrobial effects when triggered by mechanical energy. This review summarized their effects and applications in antimicrobial fields, aiming to inspire further in-depth explorations and innovative applications.

An overview is provided of all aspects of the micromotor drug delivery system, including propulsion mechanisms, precise motion control, methodologies for drug loading and controlled release, safety profiles, and lifespan.

This paper summarizes the preparation processes of tailored chitosan-based hydrogels, along with their specific applications in bone regeneration, aiming to inspire innovative designs for chitosan-based hydrogels and foster expanded applications.

Exploring the structural diversity of skeletons is a pivotal strategy for seeking new energetic materials.

Metastable-phase materials possess unique structures, high Gibbs free energy, abundant active sites, and adjustable physicochemical properties, making them ideal candidates for optimizing electrocatalysis.

Electromagnetic wave absorbing material (EMWAM) based on metal-organic framework (MOF) has high loss capacity and wide absorption bandwidth. This paper reviews recent research on MOF-based EMWAM and outlines current challenges and future directions.

Organic room-temperature phosphorescence can be facilitated according to rational design principles that promote intersystem crossing and decrease non-radiative decay in aggregated states, demonstrating versatile applications across multiple fields.