Shrinking transistors has driven computing performance for decades, but the approach is hitting physical ...

Molecular electronic devices using quantum tunneling could achieve integration densities 1,000 times greater than silicon chips by combining atomic-precision assembly with three-dimensional ...

As electronic devices continue to get smaller and smaller, physical size limitations are beginning to disrupt the trend of doubling transistor density on silicon-based microchips approximately every ...

Silver-based atomic switches that create stable electrical connections between individual molecules and electrodes have been developed by researchers from Japan, addressing a key challenge in wiring ...

Adaptable molecular devices that function as memory units, logic gates, processors, or electronic synapses have been achieved without silica. Researchers at the Indian Institute of Science created the ...

From our scientists and engineers to our service and support teams, we're passionate about equipping researchers with next-generation technology that advances scientific discovery. Our customers are ...

I-V characterization of nanoelectronic and moletronic devices requires low level current measurements in the nanoamp to femtoamp range. To complicate matters, these measurements are quite often made ...

University of Illinois Urbana-Champaign researchers report a unique strategy for controlling molecular conductance by using molecules with rigid backbones – such as ladder-type molecules, known as ...

Researchers at the Indian Institute of Science created the device. Their study was recently published in Advanced Materials. Silica is often used in electronics, but for health and environmental ...