From treating brain injuries to managing neurodegeneration, semiconducting nanomaterials hold immense promise for the future, ...

The School of Electrical and Electronic Engineering is proud to announce that Professor Jon Heffernan has been elected as a ...

He joins key figures in the field of engineering and technology to its fellowship, having been elected at the academy's ...

Quantum dots play a pivotal role in optoelectronics, enabling innovative applications through their tunable band gaps and ...

Bioelectrical signals (including EEG, EMG, and ECG signals) have been widely applied in health monitoring, disease treatment, ...

Since their discovery at Drexel University in 2011, MXenes — a family of nanomaterials with unique properties of durability, conductivity and filtration, among many others — has become the largest ...

Maintaining balance while walking may seem automatic—until suddenly it isn't. Gait impairment, or difficulty with walking, is ...

India is on the brink of a semiconductor revolution, with its premier institutes, the IITs, leading the way. From designing advanced chips to building the talent needed for manufacturing, these labs ...

Researchers developed a single-step AACVD method for nitrogen-doped carbon nanotubes on copper, optimizing synthesis for ...

Scientists at the University of North Texas report a breakthrough in building tiny, lab-grown replicas of human organs. These replicas, called organoids, can mimic some functions and structures of ...

An Australian research team has achieved an advanced materials breakthrough that opens the door to a new generation of nanodrug applications. From drug delivery, to diagnostics, to gene editing and ...