Stanford researchers developed a clean, wind-powered device to produce ammonia, reducing carbon emissions and transforming ...
NASA's new probes will measure shock waves from the X-59, helping refine supersonic flight models to reduce noise and improve ...
EV batteries could last longer under real-world driving conditions than previously estimated, offering significant cost and ...
Tailored hardware and software technology stacks reduce entry barriers and accelerate time to market.
MIT researchers develop a technique in electric heating to decarbonise heavy industries using firebrick-based thermal ...
A novel laser innovation using lead sulphide quantum dots offers cost-effective, scalable, and silicon-compatible solutions ...
What if antennas could control multiple frequencies at once? A new technology could change our thoughts about wireless communication.
Looking for a system-on-module? Unlock AI power, connectivity, and possibilities for your projects. Find out more!
A discovery by a QUT-led research team has unveiled an ultra-thin, flexible film capable of transforming body heat into electricity, potentially eliminating the need for batteries in wearable devices.
MIT innovates a novel framework for controlling ultrasound waves using microscale acoustic metamaterials, advancing computing technologies.
D printing technology has enabled researchers at University in China to develop compact, cost-efficient vortex beam generators that leverage orbital angular momentum (OAM) to enhance data capacity and ...
With features like an expansive 80 dB dynamic range, USBTMC interface, and mobile app integration, these compact and rugged sensors redefine power measurement for applications ranging from R&D to ...