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Interlab Networking

Core Collaborators

Invited Talks

  • 35.    Kwangwoon University, “Facile development of durable and high-performance heaters utilizing the sandwiched airbrushing of carbon nanotube solution and metal ink”, Seoul, Korea, Jan 21, 2020.

  • 34.    Hanyang University, “Multiscale, user-specific nanomanufacturing”, Seoul, Korea, Oct 15, 2019.

  • 33.    UNIST (Ulsan National Institute of Science and Technology), “Multiscale nanomanufacturing for user-specific applications”, Ulsan, Korea, Sep 26, 2019.

  • 32.    Kyung-In Synthetic Company (KISCO), “Smart, Multiscale, and Mass-customized Nanomanufacturing Technologies”, Seoul, Korea, Jun 24, 2019.

  • 31.    Korea Institute of Machinery & Materials (KIMM), “Smart, Multiscale, and Mass-customized Nanomanufacturing Technologies”, Daejeon, Korea, Apr 1, 2019.

  • 30.    Korea Institute of Industrial Technology (KITECH), Seonam Regional Division, “Smart, Multiscale, and Mass-customized Nanomanufacturing Technologies”, Gwangju, Korea, Mar 28, 2019.

  • 29.    Kyung Hee University, “Smart and Mass-customized Nanomanufacturing via Hybrid Nanoarchitecturing and Continuous Nanopatterning”, Yongin, Gyeonggi-do, Korea, Oct 23, 2018.

  • 28.    Korea Institute of Industrial Technology (KITECH), “Solution-processible nanoarchitecturing for scalable and flexible nanoelectronics”, Ansan, Gyeonggi-do, Korea, Aug 16, 2018.

  • 27.    Chonnam National University, “Smart and Mass-customized Nanomanufacturing via Hybrid Nanoarchitecturing and Continuous Nanopatterning”, Gwangju, Korea, Dec 11, 2017.

  • 26.    Samsung Display, co., ltd., “Increasing the efficiency and viewing angle of optical devices by using continuously manufactured flexible nanopatterns”, Yongin, Gyeonggi-do, Korea, Jul 26, 2017.

  • 25.    University of California at Berkeley, “Smart and Mass-customized Nanomanufacturing by Continuous Nanopatterning and Hybrid Nanoarchitecturing”, Berkeley, CA, USA, Feb 3, 2017.

  • 24.    RIKEN (as a part of the 1st nCOMS-RIKEN Joint Symposium), “Scalable Nanoarchitecturing of Functional Nanostructures by Continuous Mechanical Patterning and Hierarchical Assembly”, Wako, Japan, Dec 12, 2016.

  • 23.    Korea Research Institute of Standards and Science (KRISS), “Scalable Nanoarchitecturing of Functional Nanostructures towards Commercially-feasible Electronic, Photonic, and Energy Applications”, Daejeon, Korea, Aug 23, 2016.

  • 22.    Seoul National University, “Scalable Nanoarchitecturing of Functional Nanostructures towards Commercially-feasible Energy, Sensing, Electronic, and Metastructure applications”, Seoul, Korea, Jul 4, 2016.

  • 21.    Pohang University of Science and Technology (POSTECH), “Scalable Nanoarchitecturing of Functional Nanostructures”, Pohang, Gyeongsangbuk-do, Korea, Jun 3, 2016.

  • 20.    KAIST, “Scalable Nanoarchitecturing of Functional Nanostructures - Energy, Sensing, and Electronic Applications”, Daejeon, Korea, Feb 2, 2016.

  • 19.    Kookmin University, International Colloquium on Nano Fusion Mechanical Technology, “Continuous Nanoarchitecturing for Highly-functional and Scalable Energy, Sensing, and Photonic Applications”, Seoul, Korea, Oct 15, 2015.

  • 18.    Korea Institute of Machinery & Materials (KIMM), “Scalable Nanoarchitecturing for Commercially-feasible Applications in Electronics, Photonics, and Metastructures”, Daejeon, Korea, Aug 28, 2015.

  • 17.    KAIST, “Continuous and Scalable Nanomanufacturing of Energy, Sensing, and Functional Surface Applications”, Daejeon, Korea, Jul 30, 2015.

  • 16.    Kookmin University, “Continuous and Scalable Nanomanufacturing of Energy, Sensing, and Functional Surface Applications”, Daejeon, Korea, Jul 21, 2015.

  • 15.    Korea Institute of Machinery & Materials (KIMM), “Mechanical machining technologies for micro-random patterning”, Daejeon, Korea, Jun 17, 2015.

  • 14.    Ajou University, “Scalable Nanoarchitecturing of Functional Nanostructures for Commercially-feasible Energy and Electronic Applications”, Suwon, Gyeonggi-do, Korea, Apr 14, 2015.

  • 13.    Hongik University, “Extending the Functionality and Scalability of Nanoelectronics and Nanophotonics”, Seoul, Korea, Mar 30, 2015.

  • 12.    Korea Institute of Machinery & Materials (KIMM), “Large-scale Assembly of Small-scale functional building blocks: Commercially-feasible Nanomanufacturing of Energy, Sensing, and Functional Surface Applications”, Daejeon, Korea, Mar 20, 2015.

  • 11.    Korea Advanced Institute of Science and Technology (KAIST), The Cho Chun Shik Graduate School for Green Transportation, “Nanomanufacturing of Energy, Sensing, and Functional Surface Applications towards Advanced Automobiles”, Daejeon, Korea, Mar 12, 2015.

  • 10.    Korea Institute of Materials Science (KIMS), “Scalable functional nanoarchitecturing via continuous nanomanufacturing methods”, Changwon, Gyeongsangnam-do, Korea, Mar 4, 2015.

  • 9.    University of Michigan, Solid State Electronics Laboratory (SSEL) invited seminar, “Multi-scale Nano-manufacturing: large-scale assembly of small-scale functioning building blocks towards innovative solutions”, Ann Arbor, MI, USA, Feb 24, 2015.

  • 8.    Seoul National University, “Multiscale Nanomanufacturing: Large-scale assembly of small-scale functional building blocks towards innovative solutions”, Seoul, Korea, Jan 6, 2015.

  • 7.    Samsung Display, co., ltd., “Multiscale Manufacturing of Innovative solutions via Large-scale assembly of Small-scale functional building blocks”, Yongin, Gyeonggi-do, Korea, Nov 25, 2014.

  • 6.    Seoul National University of Science and Technology (Invited Seminar Series; Nondestructive Evaluation Lab), “Multiscale Manufacturing of Innovative solutions via Large-scale assembly of Small-scale functional building blocks”, Seoul, Korea, Nov 18, 2014.

  • 5.    Korea University, “Scalable Nanomanufacturing: Large-area assembly of small-scale functional building blocks”, Seoul, Korea, Apr 15, 2014.

  • 4.    Hongik University, “Making good stuffs by machining and assembling multi-scale building blocks in more practical way: Scalable nanomanufacturing & Functional nanoarchitectures”, Seoul, Korea, Nov 28, 2013.

  • 3.    Kyungpook National University, “Making good stuffs by machining and assembling multi-scale building blocks in more practical way: Scalable nanomanufacturing & Functional nanoarchitectures”, Daegu, Korea, Nov 20, 2013.

  • 2.    Korea Research Institute of Standards and Science (KRISS), “Functional hybrid nanoarchitectures and scalable nanomanufacturing technologies for energy conversion and optoelectronics”, Daejeon, Korea, Nov 7, 2013.

  • 1.    Korea Institute of Machinery & Materials (KIMM), “Functional hybrid nanoarchitectures and scalable nanomanufacturing technologies for energy conversion and optoelectronics”, Daejeon, Korea, Nov 6, 2013.