Themed collection Journal of Materials Chemistry A, B & C 10th Anniversary Perspectives

Biosensors are versatile in many applications, but their adoption as reliable point-of-care tests is hindered by challenges in systematic optimization. Experimental design provides a solution by guiding their effective development and refinement.

The potential of materials informatics in designing lithium extraction materials for capacitive deionization have been discussed.

Schematic illustration of 4D printing.

Advances in bioactive regenerative polymeric scaffolds continue to be made with new materials and methods of characterization.

Micro/nanomotor swarms propelled by diverse mechanisms.

Intestinal retentive devices (IRDs) are devices designed to anchor within the lumen of the intestines for long-term residence in the gastrointestinal tract.

This perspective discusses how single-molecule characterization techniques can help to establish structure–property relationships and further open up new paths for the rational design of organic semiconductor materials.

This perspective discusses battery safety. A reaction zone model linking thermal runaway and fire is proposed for liquid electrolytes. On solid electrolytes, five issues require further study. Safety modelling that accelerates R&D is also mentioned.

This Perspective highlights past achievements, knowledge gaps and future research directions for M-N-C catalysts for PEMFCs.

This perspective offers insights from discussions conducted during the Telluride Science meeting on organic mixed ionic and electronic conductors, outlining the challenges associated with understanding the behavior of this intriguing materials class.

Energy-efficient hydrocarbon separation is of great significance. In this perspective, we discuss three main strategies in the design of MOF materials for hydrocarbon separation: surface engineering, molecular docking, and size exclusion.

This perspective proposes feasible strategies to enhance the energy efficiency of electrochemical ammonia synthesis through electrocatalyst design and device optimization. Also, the challenges and prospects are evaluated for future development.

Thin-film composite membranes demonstrate tremendous potential for energy-efficient CO₂ capture from power generation, but many technical hurdles are to be overcome before practical, better-performing and cost-effective designs could be realized.

For biosensors based on DNA or aptamer probes and nanomaterials, aside from studying DNA adsorption and desorption, it is also important to examine the effect of target adsorption and other possible surface interaction mechanisms.

Targeted therapy using sophisticated RNA-LNPs designed to target specific tissues and organs where LNPs expressing specific peptides, aptamer or LNPs composed of specific lipids.

Sex differences in biology are observed at multiple different length scales and across organ systems.

A bioprinted hydrogel matrix exhibiting superior cellular adhesion and aggregation characteristics was engineered to enhance cartilage repair by finely tuning biochemical stimuli and mechanical stability.