Researchers have identified a new material which could be used as a flexible semiconductor in wearable devices by using a technique that focuses on the manipulation of spaces between atoms in crystals ...

QUT researchers have identified a new material which could be used as a flexible semiconductor in wearable devices by using a ...

Over the past decades, electronics engineers developed increasingly small, flexible and sophisticated sensors that can pick ...

QUT's study reveals a flexible AgCu(Te, Se, S) semiconductor, optimized through vacancy engineering, enhancing efficiency for ...

MIT engineers have developed a technique to grow and peel ultrathin "skins" of electronic material. The method could pave the ...

Some research suggests that flexible devices can spot subtle shifts in cardiovascular function or posture before things ...

Explore how bioelectronic skin patches are transforming medical applications with advanced sensing and reporting technologies ...

A review published recently in Wearable Electronics examines the current applications and persistent challenges of flexible ...

In the harsh environment of space—where microgravity, cosmic radiation, and isolation pose unprecedented health risks—flexible wearable devices have emerged as critical tools. These "smart skins" ...

QUT researchers have identified a new material which could be used as a flexible semiconductor in wearable devices by using a ...

A team led by UC Berkley scientists have developed a flexible lithium-ion battery that withstands stabs, bends, and stretches ...

Scientists at Linköping University have created a groundbreaking soft battery made with fluid electrodes, capable of taking ...