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Tag: Self-assembly
  • Research Highlight

    New chiral ceramic nanostructures: Broad chiroptical activity from ultraviolet (UV) to short-wave infrared (SWIR)

    Prof. Yeom’s group has developed new chiral nanostructures with broad chiroptical activity from the UV to the SWIR region to expand the choice of material platforms. ...read more

    Chiral Nanostructures for Materials Platform Chirality Chiroptical activity Microparticle Nanoparticle PLUS Lab (PLatforms Utilizing nano-Structures Laboratory) Self-assembly Short wave-infrared
  • Research Highlight

    Fibril-to-Fiber Structure: Hierarchically Fabricated Amyloid Fiber via Evaporation-induced Self-assembly

    Prof. Yoon’s group has suggested a facile way to produce protein-based amyloid aggregates, allowing long-range orientational and positional order. Using evaporation-induced self-assembly, a rationalized hierarchical structure will open new opportunities for developing novel functional biomaterials....read more

    Amyloid Hierarchical KAIST Institute for NanoCentury New Material Self-assembly Topographic
  • Research Highlight

    Direct Observation of the Phase Transition of Topological Defects

    The phase transition of topological defects formed by liquid crystal (LC) materials was directly observed for the first time....read more

    KINC Liquid Crystal Self-assembly Topological defect
  • Research Highlight

    Liquid Crystal Molecules Produce Complex Udumbara Flower Like Shapes

    Sublimation and recondensation of liquid crystal molecules can produce complex curvatures at the nanometer scale such as an Udumbara flower-like structure....read more

    Curvature KINC Liquid Crystal Out-of-equilibrium Self-assembly
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