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  • NOBEL
  • Principal Investigator (PI)
  • Publication
    • Journals
    • Patent
    • Invited Talks
    • Conferences
  • Research
  • Members
  • News & Gallery
  • Equipments
  • Lectures
  • Collaboration
  • Contact
  • More
    • NOBEL
    • Principal Investigator (PI)
    • Publication
      • Journals
      • Patent
      • Invited Talks
      • Conferences
    • Research
    • Members
    • News & Gallery
    • Equipments
    • Lectures
    • Collaboration
    • Contact
  • 플렉시블 나노 전자소자 분야

  • 디스플레이 광전소자 분야 (OLED/QLED, Perovskite LED)

  • 디스플레이 광전소자 분야 (OLED/QLED, Perovskite LED)

  • 바이오 전자소자 분야 (인공피부, biosensor, biochip)

Y. Lee et al., Sci. Adv., 11, eads1301 (2025)

This work introduces a rapidly self-healing electronic skin (E-Skin) designed for real-time electrophysiological monitoring. Unlike existing materials with slow recovery, the proposed E-Skin restores over 80% of its functionality within 10 seconds after mechanical damage, without external stimuli. It ensures reliable biometric measurements under harsh conditions, including underwater and variable temperatures, achieving >95% accuracy in muscle strength analysis and AI-driven fatigue detection. These results highlight the potential of fast self-healing E-Skins for practical, continuous health monitoring and wearable applications. 

  • 첨단 나노신소재 기반 반도체 및 소자

Nano-Optoelectronics and Bio-Electronics Laboratory

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