A team at KAIST has developed a DNA-based bio-transistor capable of both computation and memory. The study, published in ...

A new DNA-based molecular computer from KAIST operates at 0.34nm, combining logic and memory in a reusable system and pointing toward future biological computing.

Researchers demonstrate DNA-based electronic memory controlled by metal ions, enabling read-write-erase functions on a chip ...

DNA stores our genetic code. What if it could also be integrated with electronics to store and read other information? Scientists have been investigating how to store data in DNA, but retrieving the ...

Increasingly, quantum computers are predicted to be the next great leap in computational power -- but in reality they are more likely to be the next next great leap. Right now we have to tailor ...

Until now, molecular-level DNA circuits have mainly been used for simple tasks, such as detecting the presence of cancer-related substances. However, these systems have faced a key limitation: once a ...

Graphene-based transistors could soon help diagnose genetic diseases. Researchers in India and Japan have developed an improved method for using graphene-based transistors to detect disease-causing ...

KAIST researchers have developed the world’s smallest DNA-based molecular computer that can both process and store information, overcoming the one-time-use limitation of earlier designs. The system ...

In an effort to build a nanoscale DNA sequencer, IBM scientists are drilling nano-sized holes in computer-like chips and passing DNA strands through them in order to read the information contained ...