Making electronic systems wearable is an increasingly popular design option. Advances in process technology and wireless protocols have enabled wearable electronics to be integrated into a wide range of form factors for many different applications, and this is just the start for the technology.
Two atomically thin materials can form functional circuits given the right pattern.
Recent regulations for medical devices and the burgeoning opportunities from Internet of Things data is expected to dramatically transform healthcare and lifestyle, and the electronics industry is...
Transient -- essentially dissolving -- electronics are incredibly thin chips that melt away naturally after a given length of time. They'll be perfect for implantable medical applications
Various forces underpin the changing role of sensors in electronics systems.
3-D white graphene structures may alleviate the heat dissipation problems that plague electronics, according to researchers out of Rice University.
Figuring out radiation was a huge "turning point in the history of space electronics."
Mindshare shares trends from the Consumer Electronics Show.
These sort of ribbons have been heralded by industry experts as the component of the future which will make electronics faster and more efficient
Louroe Electronics works with CMTC to develop Innovation strategies to introduce new products to the marketplace.
A new method exposes how 2-D materials react when heated, which could help engineers build sturdy next-gen electronics.
Now that the big-box electronics store has shuttered, future generations need a place where they can touch and discover the next great technology.
Climate tech designers should take a cue from consumer electronics companies such as Dell and Sonos.
Superconductors are materials that can enter a state of no electrical resistance, through which magnetic fields cannot penetrate. Due to their interesting properties, many material scientists and engineers have been exploring the potential of these materials for a wide range of electronics applications.
As silicon-based technology reaches its absolute limits, a material engineered by University of Queensland researchers could herald the next generation of electronics with more memory, faster speeds and advanced features.