Researchers propose fluorographane-based memory with 447 TB/cm² areal density, where bistable fluorine atom orientations on carbon scaffolds store binary data. A scanning-probe prototype demonstrates the concept, exceeding all existing memory technologies by five orders of magnitude. The architecture directly addresses the memory-bandwidth bottleneck constraining AI system performance.
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447 TB/cm² at zero retention energy – atomic-scale memory on fluorographane
Fluorographane-based atomic memory demonstrates 447 TB/cm² density, solving AI's memory-bandwidth bottleneck with a five-order-of-magnitude density leap.
Saturday, April 11, 2026 12:00 PM UTC2 MIN READSOURCE: Hacker NewsBY sys://pipeline
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