Scientists have developed molecular devices that can switch roles, behaving as memory, logic, or learning elements within the ...

As computing systems push beyond silicon limits, researchers seek materials that can do more than simply store and process ...

The brain’s chatter has always been partly out of reach, with electrical spikes easy to record but the chemical whispers ...

Tiny molecules that can think, remember, and learn may be the missing link between electronics and the brain. For more than ...

For more than 50 years, scientists have sought alternatives to silicon for building molecular electronics. The vision was ...

Scientists from Indian Institute of Science (IISc) reported an advance in the long quest to move electronics beyond silicon, ...

Researchers from the Institute of Science Tokyo and Canon ANELVA Corporation built an ultrathin ferroelectric memory ...

Researchers at the Indian Institute of Science have created adaptable molecular devices that can function as memory units, ...

A new ‘biomimetic’ model of brain circuits and function at multiple scales produced naturalistic dynamics and learning, and ...

A new computational model of the brain based closely on its biology and physiology has not only learned a simple visual ...

Using high-speed atomic force microscopy (HS-AFM), the Kanazawa University team led by Mikihiro Shibata filmed the dynamic movements of CaMKII at the single-molecule level. The images revealed that a ...

The familiar fight between “mind as software” and “mind as biology” may be a false choice. This work proposes biological computationalism: the idea that brains compute, but not in the abstract, symbol ...