As you may have noticed, we're always on the lookout for groundbreaking technologies to feature on our Tech Blog—ones that could benefit our readers and society as a whole. We don’t just report on innovations as they are; we explore their possibilities and ask the 'what ifs. This article is no exception, it's about a wireless charging technology that could revolutionize how we power everything from autonomous robots and drones to, perhaps one day, electric vehicles. Imagine a device no larger than your smart phone, capable of contactless charging with a gap of up to 5.5 cm. Xnergy, a Singapore-based company, has developed the Phoenix, a cutting-edge innovation that's making waves in the wireless charging industry.
Oppo has officially unveiled the Find N5, setting a new benchmark in the foldable smartphone market with its ultra-slim design and advanced features. Measuring just 8.93mm when closed and a mere 4.21mm when opened, the Find N5 stands as the thinnest book-style foldable phone to date. This sleek profile is achieved through the use of premium materials such as carbon fiber and 7000 series aluminum alloy, ensuring both durability and a lightweight feel at 229 grams. Additionally, the Find N5 comes with IPX9 water resistance, offering users added protection against the elements, although specific ratings like IP68 are not disclosed in the provided information.
Huawei has just launched the Mate XT, the world's first trifold phone, and it’s turning heads. Priced at a steep €3,499 (around $3,662), the device promises to offer something unique: a phone that transforms into a tablet. But is it really a game-changer? or is it just another expensive experiment?
The Mate XT isn’t your usual foldable phone. It uses a dual-hinge design that lets the phone fold twice, giving you three different screen sizes: a 6.4-inch phone, a 7.9-inch expanded display, and a full 10.2-inch tablet.
Researchers and universities, including Harvard University’s Motion Analysis Lab, Stanford University, and DARPA (Defense Advanced Research Projects Agency), are making significant strides in sensory prosthetics, aiming to create more natural, lifelike prosthetic limbs that can detect pressure, texture, and temperature, sending that information to the brain to mimic natural touch. These advancements are made possible through the development of neuroprosthetics and advanced sensors.
Pet microchips are compact devices that play a crucial role in pet safety. About the size of a grain of rice, they contain unique identification information that can help owners find their lost pets. When scanned by a compatible reader, they transmit a unique identification number that links to a pet’s record in a database containing vital owner information. This relatively simple technology has revolutionized pet safety, helping reunite millions of lost pets with their families each year.