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    KAIST Daejeon, Korea.

Invited Lectures

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  • Invited Lectures (Prof. Park)

International

  1. “Micro/nano-engineered, self-powered physical/chemical sensors for next-generation IoT systems”, Instituto de Ciencia de Materiales de Sevilla (ICMS), Spain, Nov 2022
  2. “Low-power and Self-powered Environmental Sensor Assisted by Deep-Learning Technology”, ICAMN 2022, Hanoi, Vietnam, Nov 2022
  3. “Micro/nano-engineered, self-powered physical/chemical sensors for smart IoT”, E-MRS Fall 2022, Warsaw, Poland, Sep 2022
  4. “Wearable Physical Sensor Devices and Systems for Healthcare and Medical Applications”, Nanyang Technological University, Singapore, Jun 2022
  5. “Low-power and Self-powered Chemical Sensors & Deep-Learning Technology for Advanced Environmental IoT”, National University of Singapore (NUS), Jun 2022
  6. “Micro/nano-engineered, self-powered physical/chemical sensors for next-generation IoT systems”, University of Hawaii, USA, May 2022
  7. “Optical Transduction Mechanism Towards Self-Powered Soft Pressure and Strain Sensors”, IEEE NEMS 2022, Virtual Conference, Apr 2022
  8. “Self-powered Physical and Chemical Sensors towards Next Generation IoT”, IEEE Nanotechnology Council, Nov 2021
  9. “Soft Pressure and Strain Sensors based on Piezo-Transmittance Structures”, ICAE 2021, Jeju, Korea, Nov 2021
  10. “Micro/Nano-engineered sensors for environmental and healthcare monitoring applications in IoT Era”, Kyoto University of Advanced Science, Kyoto, Japan, Dec 2020
  11. “Compact, Low-power/Self-powered Gas Sensors Enabled by MEMS Platform and Functional Nanostructures”, ICSS 2020, Kaohsiung, Taiwan, Oct 2020
  12. “Compact, Low-power/Self-powered Gas Sensors Enabled by MEMS Platform and Functional Nanostructures”, IEEE NEMS 2020, Virtual Conference, Sep 2020
  13. “Micro/Nano-engineered Sensors for Environmental and Healthcare Applications”, IEEE NSENS 2019, Shenzhen, China, Nov 2019
  14. “Low-power/self-powered miniaturized environmental sensors based on MEMS platform and functional nanomaterials”, Asian Conference on Chemical Sensors 2019, Bali, Indonesia, Nov 2019
  15. “Low-power gas sensor array by MEMS platform and integrated functional nanomaterials”, China Gas Sensor Conference 2019, Shanghai, Nov 2019
  16. “Soft hierarchical and nanocomposite structures for wearable sensors”, 4th International Conference on Active Materials and Soft Mechatronics (AMSM 2019), Incheon, Oct 2019
  17. “Micro/nano-engineered sensors for environment/healthcare monitoring applications”, The 4th International Conference on Advanced Materials and Nanotechnology (ICAMN 2019), Hanoi, Vietnam, Oct 2019
  18. “Micro/Nano-engineered sensors for environmental and healthcare monitoring applications in IoT Era”, Department of Mechanical Engineering, Keio University, Yokohama, Japan, Aug 2019
  19. “Micro/Nano-engineered sensors for environmental and healthcare monitoring applications in IoT Era”, Institute for Biomedical Engineering, ETH Zurich, Zurich, Switzerland, Jul 2019
  20. “Low-power, multiplexed MEMS gas sensor array by local liquid phase reaction”, The 8th GOSPEL Workshop. Gas Sensors Based on Semiconducting Metal Oxides, Ferrara, Italy, Jun 2019
  21. “Micro/Nano-engineered sensors for environmental and healthcare monitoring applications in IoT Era (keynote lecture)”, The 14th Annual IEEE International Conference on Nano/Micro Engineered and Molecular Systems (IEEE NEMS 2019), Bangkok, Thailand, Apr 2019
  22. “Micro/Nano-enabled sensors for environmental and healthcare monitoring applications (keynote lecture)”, The 1st International Symposium on Micro/Nano Sensors for Healthcare and Smart City, Hong Kong, Dec 2018
  23. “Micro/nano-structured soft composite for physical sensing”, The 5th International Conference on Electronic Materials and Nanotechnology for Green Environment (ENGE 2018), Jeju, Korea, Nov 2018
  24. “Soft micro/nano-composite materials for physical sensing”, IUMRS-ICEM, Daejeon, Korea, Aug 2018
  25. “Heterogeneous metal oxide nanomaterial array based gas sensors using localized, liquid phase chemical reaction”, CMCEE 2018, Singapore, Jul 2018
  26. “Soft micro/nano-composite materials for flexible/wearable physical sensors”, IEEE NEMS 2018, Singapore, Apr 2018
  27. “Micro/Nano-structured Soft Nanocomposite Materials for Physical Sensing”, ICAE 2017, Jeju, Korea, Nov 2017
  28. “Heterogeneous metal oxide nanomaterial array for integrated gas sensors”, GOSPEL 2017, Seoul, Korea, Nov 2017
  29. “A new route to the fabrication of heterogeneous metal oxide nanomaterial array for integrated chemical sensors”, ACCS 2017, Hanoi, Vietnam, Nov 2017
  30. “Conductive Nanomaterial-Elastomer Nanocomposite for Physical Sensing”, J-K Composite 2017, Sendai, Japan, Sep 2017
  31. “Nature-Inspired Approach to the Controlled Synthesis and Integration of Nanomaterials and Applications to the Chemical Sensor Array”, ISNIT 2017, Cebu, Philippines, Jun 2017
  32. “A new route to the fabrication of heterogeneous metal oxide nanomaterial array for integrated chemical sensors”, IEEE NEMS 2017, LA, USA, Apr 2017
  33. “Micro/nanotechnology-enabled sensors for the Internet of Things (IoT) and wearable electronics applications”, RIKEN, Japan, Dec 2016
  34. “Microstructure / nanomaterial based environmental and human monitoring sensors and their applications”, Kyushu University, Japan, Oct 2016
  35. “Micro/nanotechnology-enabled sensors for the Internet of Things (IoT) and wearable electronics applications”, University of New South Wales, Australia, Aug 2016
  36. “Micro/nanotechnology-enabled sensors for the Internet of Things (IoT) and wearable electronics applications”, NANOTEC, Thailand, Jul 2016/li>
  37. “Micro/nanotechnology-enabled sensors for the Internet of Things (IoT) and wearable electronics applications”, Chulalongkorn University, Thailand, Jul 2016
  38. “Flexible and stretchable transducers based on functional micro/nano structures”, CSTIC 2016, Beijing, China, Mar 2016
  39. “Micro/nanotechnology-enabled sensors for the internet of things (IoT) and wearable electronics applications, Peking University, Beijing, China, Sep 2015
  40. “Gas molecule detection by one dimensional nanomaterial based gas sensors”, PIERS 2015, Prague, Czech Republic, Jul 2015
  41. “Fundamentals of sensors and smart sensor technologies for next generation mobile, IoT and wearable electronics industries”, University of Washington, Seattle, USA, Jun 2015
  42. “Functional micro/nanostructures for flexible and wearable device applications”, California Institute of Technology (Caltech), Pasadena, USA, Dec 2014
  43. “Functional nanomaterials and nanofabrication processes for flexible device applications”, University of California at Berkeley, USA, Dec 2014
  44. “Nanocomposite materials for chemical and physical sensors”, Massachusettes Institute of Technology, Cambridge, USA, Nov 2014
  45. “Nanocomposite materials for chemical and physical sensors”, State University of New York at Stony Brook, USA, Nov 2014
  46. “Bottom-up / Top-down hybrid fabrication of functional nanomaterials”, ASME 2014 International Mechanical Engineering Congress and Exposition (IMECE), Montreal, Canada, Nov 2014
  47. “Nanocomposite-based stretchable sensors”, University of California at Los Angeles, USA, Nov 2014
  48. “Wearable sensing platform based on functional nanomaterials”, Carnegie Mellon University Pittsburgh, USA, Oct 2014
  49. “Functional nanomaterials and nanofabrication processes for flexible device applications”, Pennsylvania State University, USA, Oct 2014
  50. “Functional nanomaterials and nanofabrication processes for flexible device applications”, ETH-Zurich, Switzerland, Sep 2014
  51. “Human motion sensing by nanocomposite-based strain sensors”, US-Korea Conference 2014, San Francisco, USA, Aug 2014
  52. “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
  53. “Functional nanomaterials and nanofabrication processes for flexible device applications”, Stanford University, Palo Alto, USA, Aug 2014
  54. “Functional nanomaterials and nanofabrication processes for flexible device applications”, World Micromachine Summit, Sao Paulo, Brazil, May 2014
  55. “Functional nanomaterials and nanofabrication processes for flexible device applications”, University of California at San Diego, USA, Apr 2014
  56. “Functional nanomaterial/nanostructures for advanced engineering applications”, ITIMS , Hanoi, Vietnam, Jan 2014
  57. “Nanomaterial/nanostructure-based advanced sensing technology”, Asia-Korea Conference Singapore, Nov 2013
  58. “Hybrid Nanofabrication and Integration Methods for High-Performance 1D Nanostructure-based Sensors”, 14th International Meeting on Chemical Sensors, Nuremburg, Germany, May 2012
  59. “One dimensional nanostructures for intelligent and low-power environment”, BIT Nano S&T Conference, Dalian, China, Oct 2011
  60. “Intelligent environment sensing platform by eco-friendly nanomanufacturing process”, Chulalongkorn University, Thailand, Jul 2011
  61. Top-down, bottom-up, and hybrid nanofabrication for multifunctional nanowire electronics applications”, 3rd International Symposium on Microchemistry and Microsystems (ISMM), Seoul, Korea, Jun 2011
  62. “Top-down, bottom-up, and hybrid nanofabrication for multifunctional nanowire electronics applications”, University of Groningen, Oct 2010
  63. “Research activities of MINT Lab @KAIST – Nanomanufacturing and nanodevices”, 5th ITB-KAIST Joint Workshop, Bandung, Indonesia, Jul 2010
  64. “Eco-Friendly hybrid nanomanufacturing for intelligent environment sensing applications”, Hewlett Packard (HP) Laboratory, Apr 2010
  65. “Nanopatterning of functional bio and nanomaterials by nanoimprinting”, 2nd Asian Symposium on Nanoimprint Lithography, ITRI, Taiwan, Oct 2009
  66. “Nanomanufacturing technology for multifunctional nanodevices”, 7th Korea-US Joint Symposium: MEMS and Bioengineering, Sep 2009, Daejeon, Korea
  67. “Multifunctional nanowire devices for bio/chemical sensing and manipulation”, Mechanical Engineering Department, Stanford University, Apr 2008
  68. “Multifunctional nanowire devices for bio/chemical sensing and manipulation”, Mechanical Engineering Department, Virginia Tech, Apr 2008
  69. “Multifunctional nanowire devices for bio/chemical sensing, manipulation, and control”, Mechanical Engineering Department, University of Michigan at Ann Arbor, Apr 2008
  70. “Nanoscale patterning of biologically and electrically functional materials by direct nanoimprinting” at Hewlett-Packard Laboratories, Palo Alto, Jan 2008
  71. “Nanoscale patterning of biologically and electrically functional materials by direct nanoimprinting”, Electrical Engineering Department, University of Washington, Nov 2007
  72. “Microelectrode array for cell membrane potential measurement of individual live cells”, Hewlett-Packard Laboratories, Palo Alto, Apr 2005

Domestic (Korea)

  1. “자연모사 마이크로/나노 구조물 기반 에너지 발전 및 센서 소자 기술”, 대한기계학회 2022 추계학술대회, Nov 2022
  2. “Wearable Physical Sensor Devices and Systems for Healthcare and Medical Applications”, 한양대학교 기계공학과, Oct 2022
  3. “Wearable Physical Sensor Devices and Systems for Healthcare and Medical Applications”, 중앙대학교 BK21 지능형웨어러블 로봇 교육연구단, Oct 2022
  4. “Wearable Physical Sensor Devices and Systems for Healthcare and Medical Applications”, SFAI 융합클러스터 교류회, Oct 2022
  5. “전자코 기술의 동향과 첨단 과학 수사에의 응용”, CSI Korea 2022, Oct 2022
  6. “첨단 센서 기술 및 차세대 국방 응용”, 육군대학, Sep 2022
  7. “헬스케어, UI, 메디컬 응용을 위한 마이크로/나노기술 기반 웨어러블/플렉서블 센서소자 및 시스템”, 광운대학교, Sep 2022
  8. “가스센서 기술 기초/동향 및 KAIST MINT 연구실 개발 저전력 가스센서 / 딥러닝 기반 전자코 기술 소개”, KT 연구센터, Aug 2022
  9. “첨단 센서 기술 및 차세대 국방 응용”, 안보융합원, Jul 2022
  10. “Self-powered Physical and Chemical Sensors towards Next Generation IoT”, 제주대학교 메카트로닉스공학과, Jun 2022
  11. “마이크로 나노 구조기반 환경, 웨어러블, 의료 센서 기술”, 성균관대 기계공학과, May 2022
  12. “헬스케어 및 의료용 스마트 센서 기술”, 바이오헬스최고위 혁신과정, Jan 2022
  13. “Self-powered physical and chemical sensors towards next generation IoT”, ETRI, Dec 2021
  14. “KAIST MINT 연구실스마트센서 기반 IoT 기술 및 초소형 환경/물리 센서 기술 소개자료”, 삼성전자 DS부문, Dec 2021
  15. “센서기술의 이해 – 센서의 기초 및 응용기술”, 창원대학교, Dec 2021
  16. “스마트센서 기반 IoT 기술 및 초소형 환경/물리 센서 기술 소개”, 한국조선해양 ㈜, Dec 2021
  17. “차세대 IoT를 위한 저전력/자가발전형 센서 기술”, 4대 과기원 ICT_SW 기술 소개 워크샵, Nov 2021
  18. “첨단 센서 기술 및 차세대 국방 응용”, KAIST 을지연구소 더존/국방부 대상 교육, Nov 2021
  19. “마이크로/나노 구조물을 이용한웨어러블, 헬스케어 및 의료용 센서 기술”, 서울시립대 스마트센서기술 센터, Nov 2021
  20. “Micro/Nano-engineered sensors for environmental and healthcare monitoring applications in IoT Era”, 고려대학교 기계공학과, Nov 2021
  21. “산업기술진흥협회 회원사 임직원 센서기술 교육”, 한국산업기술진흥협회, Nov 2021
  22. “마이크로/나노 구조 기반 고기능 물리/화학 센서”, 광운대 웨어러블 인력양성사업단, Sep 2021
  23. “Flexible Biophysical/Biochemical Sensor Array on Needles for Biomedical Applications”, 연세대 신소재공학과, Sep 2021
  24. “Self-powered Physical and Chemical Sensors towards Next Generation IoT”, 한양대 기계공학과, Jul 2021
  25. “마이크로 나노 기반 초저전력, 무전력 센서 기술”, 경희대학교 기계공학과, Jun 2021
  26. “산업기술진흥협회 회원사 임직원 센서기술 교육”, 한국산업기술진흥협회, Jun 2021
  27. “Self-powered physical and chemical sensors towards next generation IoT”, 한국전자전기재료학회 2021 하계학술대회, Jun 2021
  28. “설비진단용 로봇임무체를 위한 산업용센서 소형화”, KAIST-POSCO 포럼, May 2021
  29. “Flexible Biophysical/Biochemical Sensor Array on Needles for Biomedical Applications”, 광운대학교, Apr 2021
  30. “Micro/Nano-engineered sensors for environmental and healthcare monitoring applications in IoT Era”, ㈜ 카스, Jan 2021
  31. “Compact, Low-power/Self-powered Gas Sensors Enabled by MEMS Platform and Functional Nanostructures”, ETRI 산업안전지능화 연구실, Dec 2020
  32. “산업기술진흥협회 회원사 임직원 센서기술 교육”, 한국산업기술진흥협회, Dec 2020
  33. “Biomedical needles integrated with flexible physical / chemical sensor array for biomedical applications”, 한국유연인쇄전자학회 2020 학술대회, Dec 2020
  34. “4차 산업혁명 시대의 센서기술 – 첨단 센서 기술 및 미래 전망”, 명지대학교 방목기초교육대학, Nov 2020
  35. “4차 산업혁명 시대의 센서기술 – 첨단 센서 기술 및 미래 전망”, 한남대학교 화공신소재공학과, Nov 2020
  36. “Flexible Biophysical/Biochemical Sensor Array on Needles for Biomedical Applications”, 한국센서학회 2020 추계학술대회, Nov 2020
  37. “마이크로/나노 구조, 소재 기반헬스케어, 환경 모니터링 센서 기술”, 산업통상자원부 소재부품기술개발사업단, Oct 2020
  38. “IoT for Environmental and Healthcare Monitoring by Micro/Nano-enabled Technologies”, 연세대 신소재공학과, Sep 2020
  39. “IoT for Environmental and Healthcare Monitoring by Micro/Nano-enabled Technologies”, 한의학연구원, Sep 2020
  40. “Micro/Nano-engineered Sensors for Environmental and Healthcare IoT Applications”, 생산기술연구원 동남지역본부, Sep 2020
  41. “IoT for Environmental and Healthcare Monitoring by Micro/Nano-enabled Technologies”, 광운대학교 전자공학과, Sep 2020
  42. “IoT for Environmental and Healthcare Monitoring by Micro/Nano-enabled Technologies”, KAIST 전기 및 전자공학과, Sep 2020
  43. “Micro/Nano-engineered Sensors for Environmental and Healthcare IoT Applications”, 한양대 화학공학과, Aug 2020
  44. “Micro/Nano-engineered Sensors for Environmental and Healthcare IoT Applications”, UNIST 기계공학과, Aug 2020
  45. “모바일 가스센서 소자 및 시스템 기술”, 삼성전자 DS부문, Jul 2020
  46. “IoT for Environmental and Healthcare Monitoring by Micro/Nano-enabled Technologies”, 경희대학교 기계공학과, Jul 2020
  47. “저전력, 자가전력 환경센서 소자 기술”, 대한기계학회 마이크로/나노공학 부문 2020 춘계학술대회, Jul 2020
  48. “산업기술진흥협회 회원사 임직원 센서기술 교육”, 한국산업기술진흥협회, Jun 2020
  49. “MEMS/NANO-enabled Low-power / No-power Sensors for Environmental & Healthcare IoT Applications”, 광운대학교 전자공학과, Feb 2020
  50. “Micro/Nano-engineered Sensors for Environmental and Healthcare IoT Applications”, 경희대학교 기계공학과, Jan 2020
  51. “환경 및 헬스케어 IoT 를 위한 마이크로/나노 센서 기술”, 대한기계학회 2019 추계 학술대회, Nov 2019
  52. “Soft Nanocomposite Structures for Wearable Sensing Applications”, 한국생산제조학회 2019 추계 학술대회, Nov 2019
  53. “SK 협력 업체 센서기술 교육”, SK Telecom ㈜, Nov 2019
  54. “헬스케어 및 휴먼-머신인터페이스를 위한 신축성 센서 기술”, 마이크로나노시스템학회, Oct 2019
  55. “Micro/Nano-engineered Sensors for Environmental and Healthcare Applications”, Kyoto University of Advanced Science, Japan, Oct 2019
  56. “마이크로/나노 소자를 이용한 저전력/무전력 초소형 가스센서 기술”, 대한전기학회 심포지엄, Sep 2019
  57. “마이크로/나노 응용 화학센서 기술”, 삼성전자 반도체사업부, Sep 2019
  58. “헬스케어 및 인간-기계 인터페이스를 위한 플렉서블/스트레처블 센서 기술”, 광운대 전자공학과, Sep 2019
  59. “Micro/nano-structured flexible sensors for healthcare and biomedical applications”, ETRI, Sep 2019
  60. “삼성전자 DS 부문 전문가 세미나”, 삼성전자㈜, Sep 2019
  61. “저전력/무전력 초소형 환경센서 기술”, 한국센서학회 2019 추계학술대회, Aug 2019
  62. “Micro/Nano-engineered Sensors for Environmental/Biomedical Monitoring Applications”, Keio University, Japan, Aug 2019
  63. “산업기술진흥협회 회원사 임직원 센서기술 교육”, 한국산업기술진흥협회, Jul 2019
  64. “4차 산업혁명에서의 센서기술의 역할”, 공주대 기계공학과, Jun 2019
  65. “웨어러블 물리 센싱을 위한 연성 나노복합체”, 한국생산제조학회 2019 춘계 학술대회, May 2019
  66. “Micro/Nano-engineered Sensors for Environmental/Biomedical Monitoring Applications”, ETRI, May 2019
  67. “Micro/nano-sensors for Environmental Monitoring in Industry 4.0 Era”, 한국 MEMS 2019 학술대회, Apr 2019
  68. “기능성 나노복합소재의 기계-전자, 기계-광학적특성에 기반한 유연 신축성 물리 센서”, 한국유연인쇄전자학회 2019 학술대회, Mar 2019
  69. “산업기술진흥협회 회원사 임직원 센서기술 교육”, 한국산업기술진흥협회, Mar 2019
  70. “삼성전자 센서기술 온라인 교육”, 삼성전자㈜, Mar 2019
  71. “삼성전자 구미사업장 센서기술 교육”, 삼성전자㈜, Mar 2019
  72. “산업기술진흥협회 회원사 임직원 센서기술 교육”, 한국산업기술진흥협회, Feb 2019
  73. “Micro/Nano-engineered Sensors for Environmental and Healthcare Applications”, DGIST 정보통신융합전공, Mar 2019
  74. “포인트엔지니어링 임직원 센서기술 교육”, 포인트엔지니어링㈜, Jan 2019
  75. “센서기술 교육”, 삼성전자㈜, Dec 2018
  76. “산업기술진흥협회 회원사 임직원 센서기술 교육”, 한국산업기술진흥협회, Dec 2018
  77. “마이크로/나노 구조물 기반 환경/헬스 모니터링 센서 기술”, ETRI, Nov 2018
  78. “Wearable Physical Sensors based on Soft Micro/nano-Composite Materials”, 한국센서학회, Nov 2018
  79. “Micro/Nano-structured Soft Nanocomposite Materials for Physical Sensing”, 한국재료학회 추계학술대회, Nov 2018
  80. “센서기술의 이해 (센서의 기초 및 응용 기술)”, 삼성전자, Dec 2018
  81. “마이크로/나노 구조물 기반 환경/헬스 모니터링 센서 기술”, 전남대학교 기계공학과, Nov 2018
  82. “센서기술의 이해 (센서의 기초 및 응용 기술)”, SK 텔레콤, Nov 2018
  83. “센서기술의 이해 (센서의 기초 및 응용 기술)”, SK 텔레콤, Oct 2018
  84. “사물인터넷 (IoT)을 위한 스마트 대기환경 센서 개발과 응용기술”, 순커뮤니케이션, Oct 2018
  85. “마이크로/나노 구조물 기반 환경/헬스 모니터링 센서 기술”, 한양대학교 기계공학과, Oct 2018
  86. “스마트센서의 기술 동향과 사업화 전망”, 한국산업기술진흥협회, Oct 2018
  87. “마이크로/나노 구조물 기반 환경/헬스 모니터링 센서 기술”, 경상대학교 전기공학과, Sep 2018
  88. “마이크로/나노 구조물 기반 환경/헬스 모니터링 센서 기술”, 한국생산기술연구원, Sep 2018
  89. “마이크로/나노 구조물 기반 환경/헬스 모니터링 센서 기술”, 광운대학교 전자공학과, Sep 2018
  90. “Micro/Nano-structured Soft Nanocomposite Materials for Physical Sensing”, 한국정밀공학회, Aug 2018
  91. “스마트센서의 기술 동향과 사업화 전망”, 한국산업기술진흥협회, Aug 2018
  92. “Micro/nano-structured soft composite for physical sensing”, NMC 2018, Songdo, Jul 2018
  93. “Soft Micro/Nano-structured Sensors for Flexible and Wearable Physical Sensing”, US-Korea Symposium on Nanotechnology, Jul 2018
  94. “ 마이크로/나노 구조물 기반 환경/헬스 모니터링 센서 기술”, ETRI, Jul 2018
  95. “Micro/Nano-structured Soft Nanocomposite Materials for Human Sensing”, 오송첨단의료산업진흥재단, Jun 2018
  96. “사물인터넷 (IoT)을 위한 스마트 대기환경 센서 개발과 응용기술”, 산업교육연구소, Jun 2018
  97. “A new route to the fabrication of heterogeneous metal oxide nanomaterial array for integrated gas sensors”, 한국재료학회 춘계학술대회 2018, May 2018
  98. “Micro/Nano-structured Soft Nanocomposite Materials for Physical Sensing”, 한국생산기술연구원, Jun 2018
  99. “사물인터넷을 위한 스마트 환경센서 개발과 응용기술”, 테크포럼, Mar 2018
  100. “IoT 를 위한 MEMS/NANO 기반 저전력 대기환경 센서 기술 개발 현황”, 한국반도체산업협회, Feb 2018
  101. “Micro/Nano-structured Soft Nanocomposite Materials for Physical Sensing”, 한국정밀공학회 나노마이크로 워크샵, Feb 2018
  102. “Soft Micro/nanostructures for human motion sensing and user interface”, Nano Convergence Conference 2018, Jan 2018
  103. “Micro/Nano-structured Soft Nanocomposite Materials for Physical Sensing”, 삼성종합기술원, Dec 2017
  104. “사물인터넷을 위한 스마트 환경센서 개발과 응용 기술”, 테크포럼, Dec 2017
  105. “Micro/Nano-structured Soft Nanocomposite Materials for Physical Sensing”, 전자부품연구원, Dec 2017
  106. “Soft sensors for human motion monitoring and user interface applications”, 충남대학교 분석과학기술대학원, Dec 2017
  107. “MEMS/NANO 기반 저전력 대기환경 센서 기술 개발 현황”, 한국기계연구원, Oct 2017
  108. “Flexible sensors for bio-monitoring and clinical applications”, 한국진공학회, Aug 2017
  109. “MEMS/NANO 기반 저전력 대기환경 센서 기술 개발 현황”, 비즈오션, Aug 2017
  110. “스마트 팩토리를 위한 센서기술 (Sensor Technology for Smart Factory)”, 스마트팩토리 기술 포럼, Aug 2017
  111. “MEMS/NANO 기반 저전력 대기환경 센서 기술 개발 현황”, 충남테크노파크, Sep 2017
  112. “4 차 산업혁명과 센서기술”, 철원 플라즈마 기술원, Jul 2017
  113. “MEMS/NANO 기반 저전력 대기환경 센서 기술 개발 현황”, 전주대학교 탄소융합공학과, May 2017
  114. “MEMS/NANO 기반 저전력 대기환경 센서 기술 개발 현황”, 한국기계연구원, Apr 2017
  115. “Selective and Controlled Integration of Nanomaterials on MEMS/NEMS Platform and its Application to Environmental Sensors , 한국세라믹학회 춘계학술대회 2017, Apr 2017
  116. “MEMS/NANO 기반 저전력 대기환경 센서 기술 개발 현황”, 삼성전자 무선사업부, Apr 2017
  117. “MEMS/NANO 기반 저전력 대기환경 센서 기술 개발 현황”, 미래사업기술교육원, Mar 2017
  118. “소프트 마이크로/나노 구조를 이용한 휴먼센싱 및 유저인터페이스 기술”, 한국센서학회 스마트센서 포럼, Mar 2017
  119. “소프트 마이크로/나노 구조를 이용한 휴먼센싱 및 유저인터페이스 기술”, 대구과학영재학교, Mar 2017
  120. “플렉서블 센서 기술 동향 및 전망”, 경북대-고려대 첨단센서 기술 아카데미, Feb 2017
  121. “고집적 환경센서 연구, 기술 개발동향”, 산업교육연구소, Dec 2016
  122. “Micro/nanotechnology-enabled sensors for the Internet of Things (IoT) and wearable electronics applications”, 광운대학교, Nov 2016
  123. “Micro/nanotechnology-enabled sensors for the Internet of Things (IoT) and wearable electronics applications”, 연세대학교 기계공학과, Nov 2016
  124. “A new route to the fabrication of heterogeneous metal oxide nanomaterial array for integrated chemical sensors”, K-J Ceramics Conference 2016, Nov 2016
  125. “Smart sensor technology for flexible and wearable electronics”, NanoPIA 2016, Nov 2016
  126. “플렉서블 일렉트로닉스용 기능성 필름기반 마이크로/나노센서 기술동향 및 전망”, 미래사업기술 교육원, Nov 2016
  127. “첨단센서 기술 동향 : 최신 플렉서블 / 웨어러블 물리/화학센서 기술”, 도레이 첨단소재, Sep 2016
  128. “첨단센서 기술 동향 : 최신 플렉서블 / 웨어러블 물리/화학센서 기술”, 삼성전자 반도체사업부, Sep 2016
  129. “Functional Micro/Nano-Structures for Smart Sensors : Manufacturing, Applications, and Reliability”, 한국나노기술원, Aug 2016
  130. “플렉서블 일렉트로닉스용 기능성 필름기반 마이크로/나노센서 기술동향 및 전망”, 비즈오션, Mar 2016
  131. “웨어러블 디바이스 센서 기술”, ETRI, Apr 2016
  132. “Functional Micro/Nano-structures : Micro/Nano-Sensors, Manufacturing, and Reliability”, 서울과학기술대학교 기계공학과, Apr 2016
  133. “Functional Micro/Nano-Structures for Smart Sensors : Manufacturing, Applications, and Reliability”, 삼성전자 생산기술 연구소, Apr 2016
  134. “마이크로 구조체 / 나노복합소재 기반고신축성 인장 / 힘 / 압력 센서 기술”, 센서학회산학연 심포지엄, Apr 2016
  135. “마이크로 구조체 / 나노복합소재 기반고신축성 인장 / 힘 / 압력 센서 기술”, 성산 ENG, Apr 2016
  136. “고감도/초소형 대기환경 모니터링 센서 기술 동향 및 상용화 전망”, 비즈오션 기술세미나, Apr 2016
  137. “미세입자 측정 및 이미징 기술”, 특허청, Apr 2016
  138. “차세대 모바일, 웨어러블 시스템을 위한 초절전, 고집적 환경센서 소자 기술”, 서울대학교, Jan 2016
  139. “Localized energy focusing in micro/nanoscale for multiplexed nanomaterial integration”, 한국광학회 동계 학술대회 2016, Jan 2016
  140. “스마트 센서 기술동향 및 상용화 전망”, 충남테크노파크 기술포럼, Nov 2015
  141. “Functional micro/nanostructures for flexible and wearable & IoT device applications”, 부산대학교 기계공학과, Nov 2015
  142. “Functional film based micro/nano-sensors for flexible electronics”, Biz Ocean Technical Trend Seminar Series, Sep 2015
  143. “Trends of high sensitivity, ultra-compact air quality monitoring sensor technologies” (keynote speech), Summer Meeting of Korean Industrial Hygiene Association, Aug 2015
  144. “Micro/nanotechnologies for the next generation IT with personalized environment and health monitoring capabilities”, Korea Science Academy (KSA) Science Fair 2015, Aug 2015
  145. “Functional micro/nanostructures for flexible, wearable and IoT device applications”, POSTECH, Jul 2015
  146. “Trends of high sensitivity, ultra-compact air quality monitoring sensor technologies for IoT, wearable, next generation mobile platforms and their applications”, Micro Nano Systems Korea Symposium, Jul 2015
  147. “Technical trends of high sensitivity, ultra-compact air quality monitoring sensors and their applications”, Biz Ocean Technical Trend Seminar Series, Jun 2015
  148. “Functional micro/nanostructures for flexible, wearable and IoT device applications”, Pukyoung National University, Jun 2015
  149. “Fundamentals of sensors and smart sensor technologies for next generation mobile, IoT and wearable electronics industries”, Samsung Semiconductor, May 2015
  150. “Functional MEMS/nanostructures for mobile, wearable and IoT environmental sensing applications”, LG Innotek, Apr 2015
  151. “Functional micro/nanostructures for flexible, wearable and IoT applications”, Chonnam National University, Apr 2015
  152. “Functional micro/nanostructures for flexible and wearable device applications”, Gwangju Institute of Science and Technology, Apr 2015
  153. “Overview of MEMS/NEMS sensors and recent research projects @ MINT lab, KAIST”, National Nanofab Center, Mar 2015
  154. “Functional micro/nanostructures for mobile and wearable environmental sensing applications”, Nepes Corporation, Mar 2015
  155. “Functional micro/nanostructures for environmental sensing device applications”, Korea Research Institute of Ships & Ocean Engineering (KRISO), Dec 2014
  156. “Ultra-compact gas sensor technology and outlook for portable/smart gas detectors”, Samsung Advanced Institute of Technology, Mar 2014
  157. “Gas sensing and air quality monitoring technology for automobiles”, Halla Visteon Climate Control, co, Jan 2014
  158. “Introduction to MEMS/NANO technology”, Hanbat National University, Dec 2013
  159. “Functional nanomaterial/nanostructures for advanced engineering applications”, Kwangwoon University, Dec 2013
  160. “Functional nanomaterial/nanostructures for advanced engineering applications”, Korea University, Dec 2013
  161. “Nanomateria/nanostructures for multifunctional / advanced applications”, Yonsei University, Dec 2013
  162. “Highly stretchable and sensitive strain sensor based on transfer-printed nanomaterials”, Fall Meeting of Korea Society of Precision Engineers (KSPE), Oct 2013
  163. “Introduction to chemical sensors and nanomaterial-based gas sensors”, Seoul Asan Medical Center, Oct 2013
  164. “Physcial and chemical sensors based on functional nanomaterials”, National Nanofab Center, Sep 2013
  165. “MEMS/NANO Technolgy”, Kangreung Wonju National University, Apr 2013
  166. “Highly stretchable and sensitive strain sensor based on transfer-printed nanomaterials”, NanoIMP 2013 Conference, Feb 2013
  167. “Introduction to MEMS/Nanotechnology”, Changwon National University, Dec 2012
  168. “Nanomaterial-integrated microfluidic device for chemical/bio-sensing and manipulation”, KAIST-Cornell Workshop, Oct 2012
  169. “Nanomaterial-based environmental monitoring device technology”, Department of Materials Science and Engineering, Chonbuk National University, Oct 2012
  170. “Physical/chemical sensing by functional/hybrid nanomaterials”, Seoul Asan Medical Center, Aug 2012
  171. “MEMS chemical sensor technology”, Samsung Electromechanics, Aug 2012
  172. “Functional nanomaterials for flexible sensing platform”, Nano Korea Conference, Aug 2012
  173. “Physical / Chemical Sensing by Functional / Hybrid Nanomaterials”, Daegu Institute of Science and Technology (DGIST), Aug 2012
  174. “Micro/nano-technologies for wearable and flexible sensing platforms”, Samsung Advanced Institute of Technology (SAIT), Jul 2012
  175. “Physical / Chemical Sensing by Functional / Hybrid Nanomaterials”, Korea Research Institute of Standards and Science (KRISS), Feb 2012
  176. “Direct micro/nano-patterning of functional nanomaterials on flexible substrates and mechanical reliability”, Next Generation Lithography Workshop, Feb 2012
  177. “Physical / Chemical Sensing by Functional / Hybrid Nanomaterials”, Seoul Asan Medical Center, Jan 2012
  178. “Nanomaterial-based environmental monitoring device technology”, Annual Meeting of Korean Sensors Society, Nov 2011
  179. “Flexible nanoelectronics and sensing technology”, Department of Mechanical Engineering, Aju University, Nov 2011
  180. “Nanosensing device and platform based on functional nanostructures”, Department of Electronic Engineering, Gangneung-Wonju National University, Nov 2011
  181. “Intelligent technologies for environmental monitoring based on nanomaterials and nanodevices”, Konkuk University, Oct 2011
  182. “Smart environment sensing by functional nanomaterials & hybrid nanomanufacturing”, Korea Institute of Machinery and Materials (KIMM), Oct 2011
  183. “Smart environment sensing by functional nanomaterials & hybrid nanomanufacturing”, Department of Mechanical Engineering, Kyungpook National University, Sep 2011
  184. “Smart environment sensing by functional nanomaterials & hybrid nanomanufacturing”, Department of Mechanical Engineering, POSTECH, Sep 2011
  185. “Smart environment sensing by functional nanomaterials & hybrid nanomanufacturing”, Daegu Institute of Science and Technology (DGIST), Sep 2011
  186. “Intelligent environment sensing platform by eco-friendly nanomanufacturing process”, KCC Workshop, KAIST Institute of NanoCentury, Jun 2011
  187. “Hybrid nanofabrication of nanowire/nanotube-based high performance sensor devices”, Department of Mechanical Engineering, Kookmin University, Aug 2011
  188. “Hybrid nanofabrication technologies for nanowire-based sensing and microfluidic systems”, Ulsan Institute of Science and Technology (UNIST), Mar 2011
  189. “Facile fabrication of one-dimensional nanostructures for advanced sensing applications”, Korea Institute of Materials Science, Mar 2011
  190. “Hybrid nanofabrication of functional nanowires for advanced sensing applications”, Korea Institute of Materials Science, Feb 2011
  191. “Top-down, bottom-up, and hybrid nanofabrication for multifunctional nanowire electronics applications”, Jan 2011
  192. “Nanomanufacturing technology for biotechnology, nanoelectronics, and multifunctional nanodevice applications”, Dec 2010
  193. “Top-down, bottom-up, and hybrid nanofabrication for multifunctional nanowire electronics applications”, Department of Biomedical Engineering, Korea University, Dec 2010
  194. “Top-down, bottom-up, and hybrid nanofabrication for multifunctional nanowire electronics applications”, Electronics and Telecommunications Research Institute (ETRI), Sep 2010
  195. “Nanomanufacturing technology for multifunctional nanodevices”, Korea Electronics Technology Institute (KETI), Sep 2010
  196. “Top-down, bottom-up, and hybrid nanofabrication for multifunctional nanowire electronics applications”, Korea Research Institute of Chemical Technology (KRICT), Aug 2010
  197. “Top-down, bottom-up, and hybrid nanofabrication for multifunctional nanowire electronics applications”, Aju University, Jun 2010
  198. “Top-down, bottom-up, and hybrid nanofabrication for multifunctional nanowire electronics applications”, Kookmin University, May 2010
  199. “Top-down, bottom-up, and hybrid nanofabrication for multifunctional nanowire electronics applications”, KNU-ETRI Center, Kyungpook National University, May 2010
  200. “Introduction to nanomaterials and their nanodevice applications”, Samsung Electronics, May 2010
  201. “Top-down/bottom-up hybrid nanofabrication of multifunctional nanowire devices”, Korean Chemistry Society, Apr 2010
  202. “Nanomanufacturing technology for multifunctional nanodevice applications”, ERC of Micro-Thermal Systems, Seoul National University, Dec 2009
  203. “Introduction to nanotechnology and nanomanufacturing for nanodevice applications”, MEMS/NANO-Green Technology Forum, Pusan, Dec 2009
  204. “Multifunctional nanowire devices for bio/chemical sensing & manipulation”, KITECH, Ansan, Dec 2009
  205. “Multifunctional nanowire array for the biochemical sensing and manipulation”, Fall Meeting 2009, Korean Society of Mechanical Engineers, Nov 2009
  206. “Nanomanufacturing technology for multifunctional nanodevices”, Department of Mechatronics, Gwangju Institute of Science and Technology, Oct 2009
  207. “Nanomanufacturing technology for multifunctional nanodevices”, Korea Institute of Machinery and Materials (KIMM), Oct 2009
  208. “Nanomanufacturing technology for the multifunctional nanodevice applications”, Nano Korea Symposium 2009, Aug 2009
  209. “Nanodevice technology overview”, Pusan MEMS/NANO Center, Jul 2009
  210. “Nanotechnology, nanodevice industry, and nanomanufacturing technology for multifunctional nanodevices”, Korea Institute of Industrial Technology (KITECH), Jul 2009
  211. “Introduction to nanodevice technology”, Samsung Electronics Company, Jul 2009
  212. “Nanomanufacturing technology for multifunctional nanodevices”, Korea Research Institute of Standards and Science (KRISS), Jul 2009
  213. “Nanomanufacturing technology for multifunctional nanodevices”, Material Science and Engineering Department, KAIST, Jun 2009
  214. “Nanomanufacturing technology for multifunctional nanodevices”, Mechanical Engineering Department, Yonsei University, May 2009
  215. “Nanomanufacturing technology for multifunctional nanodevices”, Mechanical Engineering Department, KAIST, Apr 2009
  216. “Nanomanufacturing technology for multifunctional nanodevices”, Bio and Brain Engineering Department, KAIST, Apr 2009
  217. “Nanomanufacturing technology for biotechnology, nanoelectronics, and multifunctional nanodevice applications”, LG Electronics, Feb 2009
  218. “Nanomanufacturing technology for multifunctional nanodevices”, Material Science and Engineering Department, Gwangju Institute of Science and Technology, Feb 2009
  219. “Nanomanufacturing technology for biotechnology, nanoelectronics, and multifunctional nanodevice applications”, Yeungnam University, Daegu, South Korea, Oct 2008
  220. “Multifunctional nanowire devices for bio/chemical sensing and manipulation”, Mechanical Engineering Department, Korea Advanced Institute of Science and Technology, Jun 2008

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