Researchers at Stanford University are working on a new lithium battery technology, which makes use of a nanoscopic carbon anode shield to improve battery life.
Earlier this month LG unveiled the first in a new generation of large-format flexible and transparent displays that could one day turn gadgets we now see in sci-fi movies into reality. We only got to see the new panels in still shots at the time, but now we can get a better look at the new tech from these two short videos.
MANA has had a breakthrough with its nano ink technology for printed electronics, which will enable production of printable organic TFTs suitable for flexible displays.
A new technology could potentially make smartphone batteries last three days, as opposed to one day in the case of the typical batteries of today. The secret is replacing the graphite anode typically used in Li-ion batteries with an anode made of silicon, manufactured through a novel method from common sand.
LG Display announced today breakthroughs in the manufacturing of large flexible and transparent OLED panels, opening the way for the commercial production of truly flexible, see-through displays in as little as three years.
Display makers often throw around terms like A-Si, IGZO, or LTPS. But what do these acronyms actually mean and what’s the impact of backplane technology on user experience? What about future developments?
Mobile devices powered by memristors will boast huge storage, but benefits could also include lower prices, faster operation, greatly improved battery life, and better integration with the cloud.
While it might sound far off, flexible wearable tech arguably is the future. With that in mind, it’s worth taking a look at what our beloved industry might look like come 2025, and what it is going to take to get us there.
Ostendo has spent the past nine years quietly working on miniature projectors designed to emit videos and 3D images for smartphones and larger screens.
Korean researchers have developed a graphene based transparent memory manufacturing technique for future transparent mobile devices.