Institute of Materials Research and Engineering (IMRE)

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.

Researchers match materials to create a high-efficiency thermoelectric generator that turns waste heat into electricity.

Researchers identify an easy-to-recycle plastic alternative for use in electronics, making strides towards a circular economy.

A new hybrid metasurface created by researchers opens doors to exciting new aerospace, defence and biomedical optical applications.

A head-to-head test of three common mask decontamination methods helps frame standardised national guidelines.

A*STAR researchers blend the physics of particle dynamics with complex computational simulations to gauge the risk of catching COVID-19 in different social settings.

A*STAR scientists develop a process for transforming coconut waste into strong and biodegradable bioplastics.