The research shows that integration with smartphones creates a unique opportunity: combining powerful on-board computing with global connectivity. This allows for local data capture and cloud-based ...

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

Bioelectrical signals (including EEG, EMG, and ECG signals) have been widely applied in health monitoring, disease treatment, wearable devices, myoelectric exoskeletons, brain-machine interfaces, and ...

The Basic to Breakthrough series chronicles how investments from the Department of Energy's (DOE) Office of Science at our National Laboratories have led to new technologies that are changing our ...

A research team has developed a composite catalyst using the novel material MXene that suppresses the generation of chloride ...

Jha has a locomotor disability, which makes it difficult for her to walk long distances or climb stairs. She became disabled ...

Hydrogen fuel cell vehicles have long been hailed as the future of clean mobility: cars that emit nothing but water while delivering high efficiency and power density. Yet a stubborn obstacle remains.

Scientists in Korea have engineered magnetic nanohelices that can control electron spin with extraordinary precision at room ...

Abstract: In Part 2 of this review article, we discuss antenna-on-chip (AoC) solutions for highly integrated millimeter-wave (mm-wave) devices in wireless communications. We also analyze multiple ...

For decades, amino acids have been added to medical formulations like insulin as stabilizers: these small molecules keep ...

Biologists have long known that amino acids can help stabilize proteins, for example as additives to pharmaceutical formulations. In trying to understand why this works, EPFL and MIT researchers have ...

With their high surface area, tunable optical properties, and strong conductivity, colloidal metal particles are redefining ...