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Materials innovation has a scale-up problem, not discovery

3 hours ago
  • #manufacturing innovation
  • #materials science
  • #AI scaling
  • Richard Feynman's 1959 'plenty of room at the bottom' speech initiated atomic-scale control, leading to modern electronics and Moore's Law.
  • Current materials for AI, quantum, and energy technologies are known and lab-made but face a scale-up bottleneck, not a discovery problem.
  • Intel's high-k dielectric development at the 45nm node in 2007 highlighted that the breakthrough was scaling up processing, not discovering the material.
  • The scale-up challenge has physical hurdles due to materials' complex, interconnected environments and informational hurdles from fragmented, siloed characterization data.
  • AI and sensor-rich tools now enable real-time data processing, allowing systems like Atomscale to guide growth and use existing data more effectively.
  • Atomscale uses physics-informed AI models to turn raw data into insights in real time, improving manufacturing reliability and knowledge accumulation across organizations.
  • The future involves compressing scale-up timelines by leveraging interoperable materials data, moving from exploration to navigation and production.