Category Technology/Electronics

EPFL researchers have developed a transistor based on excitons – a type of particle most people have not heard of – that is able to function at room temperature. This breakthrough could lead to a new breed of faster, more energy efficient and smaller electronics.

Excitons could revolutionize the way engineers approach electronics. A team of EPFL researchers has created a new type of transistor – one of the components of circuits – using these particles instead of electrons. What is remarkable is that their exciton-based transistor functions effectively at room temperature, a hitherto insurmountable obstacle. They achieved this by using two 2D materials as semiconductors...

Organic Mega Flow Battery Transcends Lifetime, Voltage Thresholds

Dubbed ‘Methuselah’, new molecule outlives previous chemistries. Researchers have demonstrated a new organic molecule that outlives and outperforms its predecessors, offering the longest-lasting high-performance organic flow battery to date. Nicknamed the Methuselah quinone – after the longest-lived Biblical figure – this molecule could usefully store and release energy many tens of thousands of times over multi-year periods. Organic flow batteries are a potentially safer, less expensive alternative to lithium ion batteries and vanadium flow batteries for large-scale renewable energy storage.

“We designed and built a new organic compound that can store electrical energy and also has a very long life before it decomposes,” sa...

The photo shows a rare-earth crystal that serves as quantum memory. The crystal is cooled to 3 degrees above absolute zero temperature.
Credit: © UNIGE

Quantum communication and cryptography are the future of high-security communication. But many challenges lie ahead before a worldwide quantum network can be set up, including propagating the quantum signal over long distances. One of the major challenges is to create memories with the capacity to store quantum information carried by light. Researchers at the University of Geneva (UNIGE), Switzerland, in partnership with CNRS, France, have discovered a new material in which an element, ytterbium, can store and protect the fragile quantum information even while operating at high frequencies...

Illustration of nanosized device made of two joined silver single crystals that generate light by inelastical electron tunneling. Artwork by Steven Bopp

Using advanced fabrication techniques, engineers have built a nanosized device out of silver crystals that can generate light by efficiently ‘tunneling’ electrons through a tiny barrier. The work brings plasmonics research a step closer to realizing ultra-compact light sources for high-speed, optical data processing and other on-chip applications.

The device emits light by a quantum mechanical phenomenon known as inelastic electron tunneling. In this process, electrons move through a solid barrier that they cannot classically cross...