Discover how Penn State’s 2D CMOS computer breakthrough paves the way for ultra-efficient, atomic-scale electronics beyond silicon.

Scientists have finally captured the first-ever x-ray of a single atom, revealing chemistry on its smallest level like never before. Click to Skip Ad Closing in ...

Pakistan, June 16 -- Engineers at Pennsylvania State University have made a major breakthrough by building the world's first computer entirely from atom-thin, two-dimensional materials-without ...

Collaboration spans mobile and embedded segments based on the Intel® Atom™ Processor. Eindhoven, The Netherlands -- February 16, 2010 -- Silicon Hive B.V. announced a technology collaboration with ...

In this brief, we proposed a Ka-band CMOS power amplifier (PA) using stacked structure with cascode-like operation to improve output power. The power stage of the PA consists of one common-source (CS) ...

Traditional semiconductor gas sensors have a single-plane electrode structure; therefore, an external bias voltage is needed to create an electric field to help carriers move within the sensing ...

Band-tailing produced by electron irradiation at room temperature has been studied in various semiconductor materials using infrared absorption. The bandtailing can be produced by both 30- and 1-MeV ...

A spectroscopic study is reported of relaxation in the exciton fine structure of CdSe nanorods measured using ultrafast cross-polarized heterodyned third-order transient grating (CPH-3TG) spectroscopy ...