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Tag: KI for the NanoCentury
  • Research Highlight

    Wireless, Battery-free, Optoelectronic Diagnostic Sensor Integrated Colorimetric Dressing for Advanced Wound Care

    Prof. Inkyu Park’s group has developed a wireless, battery-free optoelectronic sensor integrated into a pH-sensitive, colorimetric wound dressing for advanced wound care....read more

    colorimetric pHdressing curcumincomposite electrospinning KI for the NanoCentury optoelec tronic sensor wireless sensor
  • Research Highlight Top Story

    Human muscle-inspired Hercules artificial muscle fiber

    Prof. Sang Ouk Kim’s group has developed robust and durable actuator fibers by incorporating 2D graphene fillers in aligned liquid crystal elastomer matrix; these fibers surpass the strength and toughness of human muscle. The reversible percolation of the graphene filler network within the composite structure upon contraction/recovery actuation offers interesting electrical switching behavior, as well as work capacity and power density far beyond those of human or mammalian muscles....read more

    Actuator Artificial muscle Graphene KI for the NanoCentury Liquid crystal elastomer Post-Human Mechanical Actuator Materials
  • Research Highlight

    Development of New Class of Hierarchically Porous Au Electrocatalyst for Efficient Mass Transfer in CO2 Reduction Reaction

    The team of Prof. Seokwoo Jeon and Prof. Jihun Oh developed a hierarchical nanostructured catalyst to reduce the use of gold via efficient mass transfer in CO2 reduction reaction....read more

    Carbon Dioxide (CO2) Reduction Reaction Electrocatalysis Hierarchical Nanostructure KI for the NanoCentury Mass Transfer NT for Climate Change Proximity-Field NanoPatterning
  • Research Highlight

    Design of Metal Nanocatalysts for High-Performance Hydrogen Fuel Cells

    New analytical platform enables evaluation of true electrocatalytic value of metal nanoparticles....read more

    KI for the NanoCentury Metal Nanoparticles NT for Climate Change Solid Oxide Electrochemical Cell (SOCs)
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