<p>Achieving textiles with programmable actuation and adaptive mechanical properties remains a paramount yet long-standing challenge for next-generation smart wearables and soft robotics. A recent breakthrough addresses this issue by introducing a mass-producible magnetorheological fibrous material. Through systematic hierarchal structural design, robust and precise textile-level vector-controllability is realized via cascaded amplification of fiber-level magnetic anisotropy. This crucial advancement paves the way for active, conformable and high-performance human–electronic interfaces.</p>

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Scalable Vector-Stimuli-Responsive Magnetorheological Fibrous Materials Enable Active Smart Textiles

  • Xinheng Yan,
  • Xuemei Sun,
  • Huisheng Peng

摘要

Achieving textiles with programmable actuation and adaptive mechanical properties remains a paramount yet long-standing challenge for next-generation smart wearables and soft robotics. A recent breakthrough addresses this issue by introducing a mass-producible magnetorheological fibrous material. Through systematic hierarchal structural design, robust and precise textile-level vector-controllability is realized via cascaded amplification of fiber-level magnetic anisotropy. This crucial advancement paves the way for active, conformable and high-performance human–electronic interfaces.