Optomec announced today that Florida State University (FSU) has purchased an Aerosol Jet deposition system. The system, which is installed at FSU’s Materials Research Building, will be used by researchers at the High-Performance Materials Institute (HPMI) for the development of multifunctional composites incorporating printed sensors.
Researchers have taken one more step toward understanding the unique and often unexpected properties of graphene, a two-dimensional carbon material that has attracted interest because of its potential applications in future generations of electronic devices.
Researchers at Ohio State University have demonstrated the first plastic computer memory device that utilizes the spin of electrons to read and write data.
An alternative to traditional microelectronics, so-called &qu...
MH&W’s Keratherm U 90 thermal interface material is a ceramic-filled polyurethane film with a thermal conductivity of 6.0 W/mK and thermal impedance of 0.05 Kin2/W. A lower cost version, Keratherm U 80, also si...
Graphene is a two-dimensional crystalline sheet of carbon atoms – meaning it is only one atom thick - through which electrons can race at nearly the speed of light – 100 times faster than they can move through silicon.
Asahi Kasei Plastics North America Inc., Fowlerville, MI launched a new polypropylene technology: Thermylene® P8 specialty compounded polypropylene resin, a material innovation that gives customers superior creep res...
The Electronics and Specialty Gases business of Linde North America recently commissioned a new carbon dioxide (CO2) purification unit at its electronics gases facility in Medford, Oregon.
The production unit was desi...
Electronic components distributor Digi-Key Corporation, recognized by design engineers as having the industry’s broadest selection of electronic components available for immediate shipment, today announced it has stock on Murata Electronics’ ECAS series of polymer aluminum electrolytic capacitors.
Researchers have overcome a fundamental obstacle in using new "metamaterials" for radical advances in optical technologies, including ultra-powerful microscopes and computers and a possible invisibility cloak.
Thin layers of oxide materials and their interfaces have been observed in atomic resolution during growth for the first time by researchers at the Center for Nanophase Materials Sciences at the Department of Energy's Oak Ridge National Laboratory, providing new insight into the complicated link between their structure and properties.
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