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 ...

This research focuses on the hardware and the software needed for realizing novel information processing systems which are indispensable for the high-speed processing of large volumes of information.

A team of UCLA and California Institute of Technology chemists reports in the Jan. 25 issue of the journal Nature the successful demonstration of a large-scale, "ultra-dense" memory device that stores ...

We design and synthesize molecules for quantum computers which use nuclear or electron spins as qubit and perform quantum computing experiments. We initialize nuclear spins by lowering entropy and ...

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 ...

In a recent study, scientists from Institute of Science Tokyo, Japan, have developed light-responsive DNA condensates that exhibit multi-modal mechanical actions. These novel micro-assemblies can be ...

We rely on computers in almost every aspect of life, from the ones that help us discover the secrets of the universe at CERN to the ones in our cars that help us get to our in-laws for the first time.