MINT

Research topics     Publication (Journal)     Publication (Conference)     Invited Lectures     Patents     Funded Projects     Facilities    

    [International]

  1. ¡°Microelectrode array for cell membrane potential measurement of individual live cells¡±, Hewlett-Packard Laboratories, Palo Alto, Apr 2005
  2. ¡°Biochemical sensing using field effects on silicon nanowires¡±, Industrial Advisory Board Meeting, Berkeley Sensor and Actuator Center (BSAC), Mar 2007
  3. ¡°Silicon nanowire (SiNW)-based biochemical sensing and selective surface functionalization of the SiNW¡±, Berkeley Nanosensor Club, Mar 2007
  4. ¡°Nanoscale patterning of biologically and electrically functional materials by direct nanoimprinting¡±, Electrical Engineering Department, University of Washington, Nov 2007
  5. ¡°Nanoscale patterning of biologically and electrically functional materials by direct nanoimprinting¡± at Hewlett-Packard Laboratories, Palo Alto, Jan 2008
  6. ¡°Silicon Nanowire-Based Biochemical Sensors¡± at Industrial Advisory Board Meeting, Berkeley Sensor and Actuator Center (BSAC), Mar 2008
  7. ¡°Multifunctional nanowire devices for bio/chemical sensing, manipulation, and control¡±, Mechanical Engineering Department, University of Michigan at Ann Arbor, Apr 2008
  8. ¡°Multifunctional nanowire devices for bio/chemical sensing and manipulation¡±, Mechanical Engineering Department, Virginia Tech, Apr 2008
  9. ¡°Multifunctional nanowire devices for bio/chemical sensing and manipulation¡±, Mechanical Engineering Department, Stanford University, Apr 2008
  10. ¡°Nanomanufacturing technology for multifunctional nanodevices¡±, 7th Korea-US Joint Symposium: MEMS and Bioengineering, Sep 2009, Daejeon, Korea
  11. ¡°Nanopatterning of functional bio and nanomaterials by nanoimprinting¡±, 2nd Asian Symposium on Nanoimprint Lithography, ITRI, Taiwan, Oct 2009
  12. ¡°Eco-Friendly hybrid nanomanufacturing for intelligent environment sensing applications¡±, Hewlett Packard (HP) Laboratory, Apr 2010
  13. ¡°Research activities of MINT Lab @KAIST - Nanomanufacturing and nanodevices¡±, 5th ITB-KAIST Joint Workshop, Bandung, Indonesia, Jul 2010
  14. ¡°Top-down, bottom-up, and hybrid nanofabrication for multifunctional nanowire electronics applications¡±, University of Groningen, Oct 2010
  15. ¡°Top-down, bottom-up, and hybrid nanofabrication for multifunctional nanowire electronics applications¡±, 3rd International Symposium on Microchemistry and Microsystems (ISMM), Seoul, Korea, Jun 2011
  16. ¡°Intelligent environment sensing platform by eco-friendly nanomanufacturing process¡±, Chulalongkorn University, Thailand, Jul 2011
  17. ¡°One dimensional nanostructures for intelligent and low-power environment¡±, BIT Nano S&T Conference, Dalian, China, Oct 2011
  18. ¡°Hybrid Nanofabrication and Integration Methods for High-Performance 1D Nanostructure-based Sensors¡±, 14th International Meeting on Chemical Sensors, Nuremburg, Germany, May 2012
  19. ¡°Nanomaterial-integrated microfluidic devices for cell diagnosis and biochemical assay¡±, Global Congress on Nanomedicine 2012, Sep 2012, Songdo, Korea
  20. ¡°Nanomaterial/nanostructure-based advanced sensing technology¡±, Asia-Korea Conference (Singapore), Nov 2013
  21. ¡°Functional nanomaterial/nanostructures for advanced engineering applications¡±, ITIMS (Vietnam), Jan 2014
  22. ¡°Functional nanomaterials and nanofabrication processes for flexible device applications¡±, University of California at San Diego (USA), Apr 2014
  23. ¡°Functional nanomaterials and nanofabrication processes for flexible device applications¡±, World Micromachine Summit (Brazil), May 2014
  24. "Human motion sensing by nanocomposite-based strain sensors", US-Korea Conference 2014, San Francisco (USA), Aug 2014
  25. ¡°Functional nanomaterials and nanofabrication processes for flexible device applications¡±, Stanford University (USA), Aug 2014
  26. "Nanowire sensor array for integrated biosensing applications", The 36th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBS) 2014, Chicago, USA, Aug 2014
  27. ¡°Functional nanomaterials and nanofabrication processes for flexible device applications¡±, ETH-Zurich (Switzerland), Sep 2014
  28. ¡°Functional nanomaterials and nanofabrication processes for flexible device applications¡±, Pennsylvania State University (USA), Oct 2014
  29. ¡°Wearable sensing platform based on functional nanomaterials¡±, Carnegie Mellon University (USA), Oct 2014
  30. ¡°Functional nanomaterials for flexible sensing devices¡±, University of Washington at Seattle (USA), Nov 2014
  31. ¡°High performance flexible and wearable sensor technology¡±, Microsoft Corporation Research Center, Redmond, WA (USA), Nov 2014
  32. ¡°Nanocomposite-based stretchable sensors¡±, University of California at Los Angeles (USA), Nov 2014
  33. "Bottom-up / Top-down hybrid fabrication of functional nanomaterials", ASME 2014 International Mechanical Engineering Congress and Exposition (IMECE), Montreal, Canada, Nov 2014
  34. ¡°Nanocomposite materials for chemical and physical sensors¡±, State University of New York at Stony Brook (USA), Nov 2014
  35. ¡°Nanocomposite materials for chemical and physical sensors¡±, Massachusetts Institute of Technology (USA), Nov 2014
  36. ¡°Physcial and chemical sensors based on nanomaterials and nanofabrication processes towards flexible device applications¡±, Stanford University (USA), Dec 2014
  37. ¡°Functional nanomaterials and nanofabrication processes for flexible device applications¡±, University of California at Berkeley (USA), Dec 2014
  38. "A new route to the fabrication of heterogeneous metal oxide nanomaterial array for integrated chemical sensors" , 33rd International Korea-Japan Seminar on Ceramics, Nov 2016
  39. "Selective and direct synthesis of functional nanomaterials by focused energy field (FEF) method" , 3rd NanoPia Conference, Nov 2016

    [Domestic(Korea)]

  40. ¡°Multifunctional nanowire devices for bio/chemical sensing and manipulation¡±, Mechanical Engineering Department, Korea Advanced Institute of Science and Technology, Jun 2008
  41. ¡°Nanomanufacturing technology for biotechnology, nanoelectronics, and multifunctional nanodevice applications¡±, Yeungnam University, Daegu, South Korea, Oct 2008
  42. ¡°Nanomanufacturing technology for multifunctional nanodevices¡±, Material Science and Engineering Department, Gwangju Institute of Science and Technology, Feb 2009
  43. ¡°Nanomanufacturing technology for biotechnology, nanoelectronics, and multifunctional nanodevice applications¡±, LG Electronics, Feb 2009
  44. ¡°Nanomanufacturing technology for multifunctional nanodevices¡±, Bio and Brain Engineering Department, KAIST, Apr 2009
  45. ¡°Nanomanufacturing technology for multifunctional nanodevices¡±, Mechanical Engineering Department, KAIST, Apr 2009
  46. ¡°Nanomanufacturing technology for multifunctional nanodevices¡±, Mechanical Engineering Department, Yonsei University, May 2009
  47. ¡°Nanomanufacturing technology for multifunctional nanodevices¡±, Material Science and Engineering Department, KAIST, Jun 2009
  48. ¡°Nanomanufacturing technology for multifunctional nanodevices¡±, Korea Research Institute of Standards and Science (KRISS), Jul 2009
  49. ¡°Introduction to nanodevice technology¡±, Samsung Electronics Company, Jul 2009
  50. ¡°Nanotechnology, nanodevice industry, and nanomanufacturing technology for multifunctional nanodevices¡±, Korea Institute of Industrial Technology (KITECH), Jul 2009
  51. ¡°Nanodevice technology overview¡±, Pusan MEMS/NANO Center, Jul 2009
  52. "Nanomanufacturing technology for the multifunctional nanodevice applications", Nano Korea Symposium 2009, Aug 2009
  53. ¡°Nanomanufacturing technology for multifunctional nanodevices¡±, Korea Institute of Machinery and Materials (KIMM), Oct 2009
  54. ¡°Nanomanufacturing technology for multifunctional nanodevices¡±, Department of Mechatronics, Gwangju Institute of Science and Technology, Oct 2009
  55. "Multifunctional nanowire array for the biochemical sensing and manipulation", Fall Meeting 2009, Korean Society of Mechanical Engineers, Nov 2009
  56. ¡°Multifunctional nanowire devices for bio/chemical sensing & manipulation¡±, KITECH, Ansan, Dec 2009
  57. ¡°Introduction to nanotechnology and nanomanufacturing for nanodevice applications¡±, MEMS/NANO-Green Technology Forum, Pusan, Dec 2009
  58. ¡°Nanomanufacturing technology for multifunctional nanodevice applications¡±, ERC of Micro-Thermal Systems, Seoul National University, Dec 2009
  59. "Top-down/bottom-up hybrid nanofabrication of multifunctional nanowire devices", Korean Chemistry Society, Apr 2010
  60. ¡°Introduction to nanomaterials and their nanodevice applications¡±, Samsung Electronics, May 2010
  61. ¡°Top-down, bottom-up, and hybrid nanofabrication for multifunctional nanowire electronics applications¡±, KNU-ETRI Center, Kyungpook National University, May 2010
  62. ¡°Top-down, bottom-up, and hybrid nanofabrication for multifunctional nanowire electronics applications¡±, Kookmin University, May 2010
  63. ¡°Top-down, bottom-up, and hybrid nanofabrication for multifunctional nanowire electronics applications¡±, Aju University, Jun 2010
  64. ¡°Top-down, bottom-up, and hybrid nanofabrication for multifunctional nanowire electronics applications¡±, Korea Research Institute of Chemical Technology (KRICT), Aug 2010
  65. ¡°Nanomanufacturing technology for multifunctional nanodevices¡±, Korea Electronics Technology Institute (KETI), Sep 2010
  66. ¡°Top-down, bottom-up, and hybrid nanofabrication for multifunctional nanowire electronics applications¡±, Electronics and Telecommunications Research Institute (ETRI), Sep 2010
  67. ¡°Top-down, bottom-up, and hybrid nanofabrication for multifunctional nanowire electronics applications¡±, Department of Biomedical Engineering, Korea University, Dec 2010
  68. ¡°Nanomanufacturing technology for biotechnology, nanoelectronics, and multifunctional nanodevice applications¡±, Dec 2010
  69. ¡°Top-down, bottom-up, and hybrid nanofabrication for multifunctional nanowire electronics applications¡±, Jan 2011
  70. ¡°Hybrid nanofabrication of functional nanowires for advanced sensing applications¡±, Korea Institute of Materials Science, Feb 2011
  71. ¡°Facile fabrication of one-dimensional nanostructures for advanced sensing applications¡±, Korea Institute of Materials Science, Mar 2011
  72. ¡°Hybrid nanofabrication technologies for nanowire-based sensing and microfluidic systems¡±, Ulsan Institute of Science and Technology (UNIST), Mar 2011
  73. ¡°Hybrid nanofabrication of nanowire/nanotube-based high performance sensor devices¡±, Department of Mechanical Engineering, Kookmin University, Aug 2011
  74. ¡°Intelligent environment sensing platform by eco-friendly nanomanufacturing process¡±, KCC Workshop, KAIST Institute of NanoCentury, Jun 2011
  75. ¡°Smart environment sensing by functional nanomaterials & hybrid nanomanufacturing¡±, Daegu Institute of Science and Technology (DGIST), Sep 2011
  76. ¡°Smart environment sensing by functional nanomaterials & hybrid nanomanufacturing¡±, Department of Mechanical Engineering, POSTECH, Sep 2011
  77. ¡°Smart environment sensing by functional nanomaterials & hybrid nanomanufacturing¡±, Department of Mechanical Engineering, Kyungpook National University, Sep 2011
  78. ¡°Smart environment sensing by functional nanomaterials & hybrid nanomanufacturing¡±, Korea Institute of Machinery and Materials (KIMM), Oct 2011
  79. ¡°Intelligent technologies for environmental monitoring based on nanomaterials and nanodevices¡±, Konkuk University, Oct 2011
  80. ¡°Nanosensing device and platform based on functional nanostructures¡±, Department of Electronic Engineering, Gangneung-Wonju National University, Nov 2011
  81. ¡°Flexible nanoelectronics and sensing technology¡±, Department of Mechanical Engineering, Aju University, Nov 2011
  82. ¡°Nanomaterial-based environmental monitoring device technology¡±, Annual Meeting of Korean Sensors Society, Nov 2011
  83. ¡°Physical / Chemical Sensing by Functional / Hybrid Nanomaterials¡±, Seoul Asan Medical Center, Jan 2012
  84. ¡°Direct micro/nano-patterning of functional nanomaterials on flexible substrates and mechanical reliability¡±, Next Generation Lithography Workshop, Feb 2012
  85. ¡°Physical / Chemical Sensing by Functional / Hybrid Nanomaterials¡±, Korea Research Institute of Standards and Science (KRISS), Feb 2012
  86. ¡°Micro/nano-technologies for wearable and flexible sensing platforms¡±, Samsung Advanced Institute of Technology (SAIT), Jul 2012
  87. ¡°Physical / Chemical Sensing by Functional / Hybrid Nanomaterials¡±, Daegu Institute of Science and Technology (DGIST), Aug 2012
  88. ¡°Functional nanomaterials for flexible sensing platform¡±, Nano Korea Conference, Aug 2012
  89. ¡°MEMS chemical sensor technology¡±, Samsung Electromechanics, Aug 2012
  90. ¡°Physical/chemical sensing by functional/hybrid nanomaterials¡±, Seoul Asan Medical Center, Aug 2012
  91. ¡°Nanomaterial-based environmental monitoring device technology¡±, Department of Materials Science and Engineering, Chonbuk National University, Oct 2012
  92. ¡°Nanomaterial-integrated microfluidic device for chemical/bio-sensing and manipulation¡±, KAIST-Cornell Workshop, Oct 2012
  93. ¡°Introduction to MEMS/Nanotechnology¡±, Changwon National University, Dec 2012
  94. ¡°Highly stretchable and sensitive strain sensor based on transfer-printed nanomaterials¡±, NanoIMP 2013 Conference, Feb 2013
  95. ¡°MEMS/NANO Technolgy¡±, Kangreung Wonju National University, Apr 2013
  96. ¡°Physcial and chemical sensors based on functional nanomaterials¡±, National Nanofab Center, Sep 2013
  97. ¡°Introduction to chemical sensors and nanomaterial-based gas sensors¡±, Seoul Asan Medical Center, Oct 2013
  98. ¡°Highly stretchable and sensitive strain sensor based on transfer-printed nanomaterials¡±, Fall Meeting of Korea Society of Precision Engineers (KSPE), Oct 2013
  99. ¡°Nanomateria/nanostructures for multifunctional / advanced applications¡±, Yonsei University, Dec 2013
  100. ¡°Functional nanomaterial/nanostructures for advanced engineering applications¡±, Korea University, Dec 2013
  101. ¡°Functional nanomaterial/nanostructures for advanced engineering applications¡±, Kwangwoon University, Dec 2013
  102. ¡°Introduction to MEMS/NANO technology¡±, Hanbat National University, Dec 2013
  103. ¡°Ultra-compact gas sensor technology and outlook for portable/smart gas detectors¡±, Samsung Advanced Institute of Technology, Mar 2014