Ordinary human cells, not just neurons, respond more strongly to memory signals when they arrive in spaced bursts rather than all at once.
Memristors, or “memory resistors,” are the leading candidate for replacing synapses in a neuromorphic (brain-like) computer.
Credit: Nature Communications (2025). DOI: 10.1038/s41467-025-61649-6 Researchers at The University of Manchester's National Graphene Institute have developed a new class of programmable nanofluidic ...
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Scientists discover how to 'truly reverse' memory loss by switching off proteins in the brain
Researchers have reversed memory loss in aging mice by targeting a protein that builds up in brain cells, pointing toward a potential pathway to counter the cognitive declines of aging. In a new study ...
A new computational tool developed by researchers has uncovered genetic evidence directly linking Alzheimer’s disease to the ...
Current AI technology has hit a wall that prevents it from reaching artificial general intelligence. The next design leap involves adding a type of complexity that attempts to mimic the way the human ...
A research team has found a way to restore brain communication and memory function in mice — offering real hope that ...
Researchers have uncovered a new factor that could contribute to Alzheimer’s disease development. A study by Harvard Medical School has identified low lithium levels in the brain as a possible trigger ...
Spanish and Chinese scientists say they have used nanoparticles to enable the brains of mice to clear out plaque linked to ...
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