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Korea Institute of Machinery Materials

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Nano-Mechanical Systems

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Korea Institute of Machinery & Materials

Nano-Mechanical Systems


Nano-Mechanical Systems Image
Nano-Mechancial Systems Research Division pursues development of production process, equipment and measurement/evaluation to produce nano-scale machinery and parts. The research field includes mechanical engineering, physics, chemistry, electrical engineering, printing technology and nature-inspired technology to establish infrastructure of nanotechnology industries.

Research Field

  • Printing process and equipment technology for printed electronics
  • Flexible low-cost printed electronics devices technology
  • Flexible low-cost solar cell technology
  • Self-cleaning surface fabrication technique using nature-inspired technology
  • 3D plotting system for tissue engineering scaffold
  • Ultra precision machining and forming process for micro/nano features
  • Micro-/Nanoscale machining and fabrication process based on femtosecond laser
  • Fabrication and process development for advanced MEMS
  • Nanoimprinting equipments technology
  • E-beam lithography and nanostamp fabrication technologies
  • Nanopatterning and nanodevices fabrication using nanoimprint lithography
  • E-beam lithography and nanostamp fabrication technologies
  • Nano-scale measurement and analysis
  • Development of thermoelectric device and module
  • Separation and transparent heater of carbon nanotube
  • Mass production and application of quantum dot
  • Structural analysis and reliability evaluation of nano/micro structures

Result

Development of Bio-mechanical system using nature-inspired technology

  • Schematic diagram of 3D bioplotting system using electrospinning and rapid prototype technology
  • 3D plotting system using electrospinning and rapid prototype technology

Development of R2R printing process and equipment technology for printed electronics
  • Target markets and application fields of printed electronics
  • Roll-to-roll printing equipment for printed electronics

Development of electro-static inkjet and R2R equipment for next generation display pattern
  • Roll-to-roll ESD printing equipment
  • Patterning of stem cells on protein ESD printing

Development of a 3-D digital real object duplication system
  • Examples of duplicated products by 3D real object duplication system
  • 3D real object duplication system for office use

Development of roll machining and continuous forming process for large surface and high aspect ratio
  • Roll machining for micro patterns on large surface
  • Injection molding of micro patterns with high aspect ratio(height:200um, aspect ratio:4)
  • Advanced injection material with high deforming characteristics

Development of UV/Thermal-based nanoimprinting equipments
  • Development of nanoimprinting equipment

Development of Larger Area Nanoimprint technology
  • Large area imprint machine and pattermed glass substrate
  • Magnified view of large area imprinted patterns
  • Nanoimprinted patterns-embedded highly efficient OLED

Mechanical property measurement and evaluation of nano-scale thin film
  • Property measurement technology for nano-scale thin film using atomic force microscope

Fundamental technology for nano-assembly of nano-material
  • CNT Transpaernl Heater-before and after Heating
  • Separation of CNT using microfluidics chip

Development of ultra-light and high performance subframe module for automotive
  • Automotive sub-frame module