Researchers at the FAMU-FSU College of Engineering are improving the safety and performance of electric vehicles through a new design that protects their batteries.
Evident unveiled the winners of its fourth Global Image of the Year Scientific Light Microscopy Award, an annual competition that recognizes the best in scientific imaging worldwide.
Hiden Analytical proudly presents the innovative HPR-90 'Package Cracker' fill-gas analyser, an advanced instrument designed for accurate measurement of static fill-gas and residual gases in a wide range of vessel types.
CRAIC Technologies, a leading innovator of scientific instrumentation for microscopy and spectroscopy applications, has announced the launch of its new SampleSafe™ technology.
After its successful development of industrial electric motors (three-phase induction motors) with super-premium class efficiency (IE4) for the first time in Korea, the Electric Machine and Drive Research Center of Korea Electrotechnology Research Institute (KERI) has established an "open platform" that enables SMEs to utilize related technologies.
Superconductors—found in MRI machines, nuclear fusion reactors and magnetic-levitation trains—work by conducting electricity with no resistance at temperatures near absolute zero, or -459.67 °F.
Oxford Instruments today announces the launch of the PlasmaPro ASP, a high-rate atomic layer deposition (ALD) research system within its Atomfab® product range.
TAGARNO, a leading provider of digital microscopes, is pleased to announce that it now offers accessories for its ZAP microscope that allow users to integrate it seamlessly into an existing stereo microscope setup.
The Measuring Division of Kaman Precision Products, Inc., the world leader in the design and manufacture of high-performance position measurement systems, highlights the DIT-5200L noncontact differential impedance transducer, which offers true differential for common mode rejection at an economical price
Solid electrolytes with high lithium-ion conductivity can be designed for millimeter-thick battery electrodes by increasing the complexity of their composite superionic crystals, report researchers from Tokyo Tech.