Institute of Materials Research and Engineering (IMRE)

Using novel dual-layered memristor designs, researchers solve processing speed and reliability issues faced by a promising new class of computing devices.

In a comprehensive review, researchers explore how manufacturing defects can power up catalysts that transform carbon dioxide into alternative solar fuels.

Researchers develop a new class of recyclable polymer-based nanofibres with exceptional strength and durability.

Researchers take a deep dive into the current state of the art of iridium-based catalysts for green hydrogen production.

Researchers discover how to extend the lifespan of lithium metal batteries by coating separators with graphene.

Researchers assemble the first guide for making high-quality MXenes – synthetic materials with a wealth of untapped potential in energy storage and other industrial applications.

Researchers develop a polymer-based bioelectronic transistor that could power tomorrow’s point-of-care diagnostic devices.

A new two-step process for fabricating quantum dots with tuneable properties offers exciting possibilities for medical imaging and beyond.

Researchers create a new recyclable, eco-friendly class of plastics derived from natural sugar molecules to address the plastic waste crisis.

Artificial intelligence could help speed up the discovery and development of materials towards a greener future.

A new polymer gel may offer a drug-free solution to preventing retinal scarring after eye surgery.

By working on the next wave of high-resolution liquid crystal projectors, A*STAR researchers pave the way for better virtual reality hardware.