Researchers at KAIST have developed a DNA-based molecular computer that integrates computation and memory at scales below 2 nanometers, surpassing limits of traditional semiconductors. Unlike previous ...

Molecular computer components could represent a new IT revolution and help us create cheaper, faster, smaller, and more powerful computers. Yet researchers struggle to find ways to assemble them more ...

David Leigh dreams of building a small machine. Really small. Something minuscule. Or more like … molecule. “Chemists like me have been working on trying to turn molecules into machines for about 25 ...

KAIST researchers have created a DNA-based molecular computer that integrates computation and memory at sub-2-nanometer scales, overcoming the one-time-use limitation of traditional DNA circuits. In ...

All life, as far as we know, assembles itself molecule by molecule. The blueprint for our bodies is encoded on ribbons of DNA and RNA. Cellular factories called ribosomes make these blueprints ...

A single electron makes the difference between “on” and “off” for a new transistor made from a single carbon nanotube, whose minute size and low-energy requirements should make it an ideal device for ...

Computer-aided molecular and product design is an interdisciplinary discipline that combines molecular property prediction, algorithmic search and process engineering to accelerate the development of ...

A molecular switch is an important step toward building molecular computers. The Defense Advanced Research Projects Agency’s Applications of Molecular Electronics, or MoleApps, program sponsors ...