In a recent study published in the journal Nature, researchers found that the recruitment of neurons to memory circuits is preceded by a cascade of molecular events induced during learning, which ...
An international collaborative research team, including scientists from UQ's Queensland Brain Institute (QBI), has discovered a novel mechanism underlying memory involving rapid changes in a specific ...
Synthetic DNA enables precise nanoscale architecture for advanced memory devices The device operates using less than one-tenth of standard voltage levels Combining DNA and perovskite creates highly ...
A new study has suggested that two processes that are usually thought of as harmful: DNA damage and inflammation, may actually be processes that are required whenever we form long-term memories. Brain ...
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 ...
An international collaborative research team, including scientists from UQ's Queensland Brain Institute (QBI), has discovered a novel mechanism underlying memory involving rapid changes in a specific ...
Schematic showing a single DNA duplex bridging two gold electrodes (yellow) patterned on a silicon nitride substrate (green). The setup allows measurement of electrical conductance as metal ions bind ...
A crack team of nanoengineers and biologists have created a non-volatile memory device out of salmon DNA and silver nanoparticles. The memory is write-once-read-many (WORM), just like an optical disc.
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