Researchers built a four-atom-thick transistor combining an atomically thin semiconductor and molecular crystal. It uses ...
Morning Overview on MSN
Single crystal achieves on-demand topological switching
Topological materials promise electronics that are faster, cooler, and far more robust, but until now they have mostly ...
11don MSN
How the brain decides what to remember: Study reveals sequentially operating molecular 'timers'
Every day, our brains transform quick impressions, flashes of inspiration, and painful moments into enduring memories that underpin our sense of self and inform how we navigate the world. But how does ...
Long-term memory emerges from a sequence of molecular programs that sort, stabilize, and reinforce important experiences.
Every day, our brains transform quick impressions, flashes of inspiration, and painful moments into enduring memories that underpin our sense of self ...
What might the second quantum revolution mean for science, technology and our understanding of reality itself?
As the industry advances into the angstrom era, gate-all-around architectures combined with atomic-scale materials ...
Tech Xplore on MSN
Aluminum nitride transistor advances next-gen RF electronics
Cornell researchers have developed a new transistor architecture that could reshape how high-power wireless electronics are ...
Silver-based atomic switches that create stable electrical connections between individual molecules and electrodes have been ...
Tom's Hardware on MSN
Samsung touts 96% lower-power NAND design — researchers investigate design based on ferroelectric transistors
Samsung researchers have published a detailed account of an experimental NAND architecture that aims to cut one of the ...
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