• 7126ho Mechanical Engineering Building (N7-4)
    KAIST Daejeon, Korea.

Professor

Inkyu Park

[Google scholar citation]
  • Principal Investigator/KAIST Chair Professor (KAIST 지정석좌교수)
    • Affiliation:
      • Department of Mechanical Engineering / School of Mechanical, Aerospace & Systems Engineering
    • Co-affiliation:
      • KAIST Institute for the NanoCentury (KINC)
      • KAIST Institute for the Information Technology Convergence (KIITC)
      • Mobile Sensor and IT Convergence (MOSAIC) Center
      • Korea Advanced Institute of Science and Technology (KAIST)

ADDRESS

  • MIcro and Nano Transducers (MINT) Laboratory (7102), Department of Mechanical Engineering Bldg. (N7), Korea Advanced Institute of Science and Technology (KAIST), 291 Daehak-ro, Yoosung-Gu, Daejeon

CONTACT

  • Telephone: 042-350-7922
  • E-mail: inkyu@kaist.ac.kr

EDUCATION BACKGROUND

  • PH.D. IN MECHANICAL ENGINEERING Dec 2007
    University of California, Berkeley, USA
Dissertation Title Nanowire sensor for real-time chemical and biological detection
Advisors Professor Albert P. Pisano (Committee Chair, Department of mechanical engineering)

Professor Liwei Lin (Co-chair, Department of mechanical engineering)

Professor Andrew Neureuther (Co-chair, Department of electrical engineering and computer science)
Major Field MEMS / NANO
Minor Fields Control and systems; Electrical engineering
  • MS IN MECHANICAL ENGINEERING Aug 2003
    University of Illinois, Urbana-Champaign, USA

    Thesis Title “Study of thermal oxidation of tantalum thin film and its protection by Ta2O5 and Al2O3 thin film layers for microscale chemical reactors”
    Advisors Professor Mark A. Shannon
  • BS IN MECHANICAL ENGINEERING Feb 1998
    Korea Advanced Institute of Science and Technology (KAIST), Daejeon, Republic of Korea
    Graduation with Summa Cum Laude (Rank: 1/88)
  • STUDENT EXCHANGE PROGRAM Spring 1996
    Royal Melbourne Institute of Technology (RMIT), Melbourne, Australia

AWARDS & HONORS

  • Nanotechnologies Top 10 of Korea (2023년 10대 나노기술 우수연구개발 성과), Sep 2023
  • NanoKorea 2023 Research Innovation Award (Minister Award from Ministry of Science and ICT) (나노코리아 2023 어워드 연구혁신상 (과학기술정보통신부 장관상) 과학기술정보통신부), Jul 2023
  • Top 100 Outstanding Research Paper Award, The Korean Federation of Science and Technology Societies (제33회 과학기술우수논문상 한국과학기술단체총연합회), Jul 2023
  • Gold Prize, KSME-LG Future Hometech Challenge, Korean Society of Mechanical Engineers (KSME-LG퓨처 홈테크 챌린지 금상 대한기계학회), Nov 2022
  • Prize for Academic Excellence (학술상), KAIST, Feb 2021
  • Outstanding Researcher Award (우수연구자상), Society of Micro and Nano Systems, Aug 2020
  • Grand Prize, Technology Innovation Award (기술혁신 대상), KAIST, Dec 2019
  • Industry-University Cooperation Award (산학협력상), The Society of Micro and Nano Systems, Dec 2019
  • Contribution Award, Korea Sensor Society (공로상), Nov 2019
  • Bronze Award, KSME-SEMES Competition (Expert Division), Nov 2019
  • KINC Fusion Research Award, KAIST KI for the NanoCentury, Mar 2018
  • KAIST Chair Professorship, KAIST, Mar 2017
  • Kahp-Yang Suh Paper Award, Int. Symp. on Green Manufacturing and Applications (ISGMA), Jun 2015
  • KINC Fusion Research Award, KAIST KI for the NanoCentury, Mar 2013
  • Outstanding Paper Award, Korean Society of Manufacturing Technology Engineers (KSMTE), Apr 2012
  • Outstanding Teaching Award, Department of Mechanical engineering, KAIST, Mar 2012
  • HP Open Innovation Research Award, Hewlett Packard (HP) Company (USA), Aug 2011
  • HP Open Innovation Research Award, Hewlett Packard (HP) Company (USA), Aug 2010
  • Best Paper Award, IEEE NANO ’2010 Conference, Aug 2010
  • HP Open Innovation Research Award, Hewlett Packard (HP) Company (USA), Aug 2009
  • Best Poster Presentation Award, ASME MICRO/NANO Forum, ASME IMECE 2007, Nov 2007
  • Outstanding Graduate Student Instructor (GSI) Award, UC Berkeley Graduate Division, Spring 2006
  • Grant-In-Aid Fellowship, UC Berkeley, Fall 2005-Spring 2006
  • Best Performance in Doctoral Preliminary Examination, UC Berkeley, Spring 2004
  • Best Graduate Award, Mechanical Engineering Department, KAIST, Spring 1998
  • Summa Cum Laude (1st of 88 Graduates in Mechanical Engineering Department), KAIST, Spring 1998
  • Korean Governmental Scholarship, KAIST, 1994-1998
  • Travel and Tuition Grant for Exchange Student Program to RMIT, KAIST, Spring 1996

PROFESSIONAL EXPERIENCE

  • Full Professor Mar 2019 – Present
    KAIST Chair Professor Mar 2017 – Present
    ASSOCIATE & ASSISTANT PROFESSOR Jan 2009-Present; tenured since Mar 2016

    • Department of Mechanical Engineering
    • School of Mechanical, Aerospace & Systems Engineering
    • KI for the NanoCentury
    • KAIST Institute for the Information Technology Convergence (KIITC)
    • Mobile Sensor and IT Convergence (MOSAIC) Center
    • Korea Advanced Institute of Science and Technology (KAIST), Daejon, South Korea
    Director of MINT Lab (MIcro and Nano Transducers Lab) at KAIST http://mintlab1.kaist.ac.kr
    Major research topics (1) high performance bio/chemical & physical sensors based on functional micro/nano-structures and nanomaterials
    (2) multiscale and hybrid manufacturing technologies for advanced electronics, energy, and sensing applications, and
    (3) mechanics and reliability of nanomaterial-based devices and systems
    Courses taught
    • Applied electronics (ME307)
    • Sensor and instrumentation engineering (ME505)
    • Deformation, fracture, and strength of materials (ME432)
    • Principles and applications of sensor engineering (ME800C)
    • Solid mechanics (ME231), Introduction to nanotech processing (ME 526)
    • Engineering Design (ME340)
    • ME106 (Human and Machine), and Freshman seminar (HS100)
    Project advisor
    • Creative system design II (MAE404)
    • Freshmen design course (ED100)
  • VISITING PROFESSOR Feb 2014-Feb 2015
    Department of Mechanical and Aerospace Engineering, University of California at San Diego, CA
  • CO-FOUNDER AND CHIEF TECHNOLOGY OFFICER Jan 2008-Jan 2009
    nPrint Solutions, San Jose, CA, USA (http://www.nprintsolutions.com)

    • Development of high-speed, low-cost nanoscale printing systems and high quality direct nanoimprinting services for flexible display, photovoltaic devices, and sensors
  • RESEARCH SPECIALIST Dec 2007-Nov 2008
    Berkeley Sensor and Actuator Center (BSAC), University of California, Berkeley, USA

    • Development of (1) nanowire array devices for in-situ monitoring of biomass energy conversion process, (2) large scale nanopatterning processes, and (3) hybrid nanofabrication processes
    • Proposal writing for federal and industry projects and supervision of graduate student researchers
  • INTERN & VISITING RESEARCHER intern: Jun – Dec 2005; visiting: Dec 2005 – Nov 2008
    Quantum Science Research (QSR) Group, Hewlett-Packard Laboratory, Palo Alto, CA, USA

    • Development of a novel nanoimprinting system with extreme overlay accuracy and high throughput; System design, numerical simulation, and nanoimprinting test
    • Design and development of silicon nanowire-based intracellular biochemical sensors

TEACHING EXPERIENCES (before KAIST)

  • GRADUATE STUDENT INSTRUCTOR (GSI) Jan-May 2005
    Mechanical Engineering Department, University of California, Berkeley, USA

    • Leading of a mechanical engineering experimental lab (ME107B) on mechanical system dynamics & vibration with lab sessions, discussion sessions, and office hours
    • Curriculum design with additional experiments and data analysis methods
    • Outstanding Graduate Student Instructor (GSI) Award for outstanding performance in instructions, UC Berkeley Graduate Division, Spring 2006
  • TEACHING ASSISTANT (TA) Aug 2001-May 2002
    Mechanical and Industrial Engineering Department, University of Illinois, Urbana-Champaign, USA

    • Assistance for professors with junior and senior level courses by teaching classes, managing lab sessions, holding office hours, discussion sessions and grading reports, quizzes, and homework
    • Courses include ME231 (Engineering Materials) and ME261 (Fundamentals of Signal Processing, Instrumentation, and Control)

TEACHING INTERESTS

TEACHING PHILOSOPHY
I strongly believe in active learning, where students have their own ability to learn the subjects and develop their unique views if they are determined and motivated. Teachers should provide an environment so that students can learn actively in a smoother, more pleasant and more enjoyable way. I believe this can be best achieved by incorporating four key components in my teaching:
  1. Understanding the students: Teachers should continually keep track of the student’s understanding level. Surprisingly, I have observed many classes where many students felt lost, especially after the midterm, even if the instructor had good teaching skills. I realized that this is due to the instructor’s lack of communication with students and appreciation of their understanding level. This could be resolved by frequent course evaluation and survey throughout the semester. The teacher can adjust the pace of the curriculum or hold extra sessions for the students having difficulties based upon these results.
  2. Creating entertaining and dynamic environment: Education is not a unidirectional but interactive communication process. Both students and instructors should actively participate in the class and benefit from learning. In my classes, I have tried to provide an environment so that students could get actively involved, teach and correct each other. Specifically, creating a friendly and comfortable atmosphere where students are not worried about making mistakes has been very helpful in promoting this environment.
  3. Encouraging group work to students: Students are more motivated and learn better when they share their knowledge and idea with their colleagues. I have encouraged group activities such as team projects, discussions, newsgroups and e-mail communication to the students. The groups with good chemistry and active member participation have always performed better. Furthermore, they learned not only problem solving but also communication skills, which is one of the most crucial assets for their career.
  4. Promoting “thinking out of the box”: It is important to emphasize broad and practical issues of engineering in class. Furthermore, it is important to help students to see beyond the basic material and achieve a level of creativity in their studies. In many classes, especially at freshman or sophomore level, students easily get bored or become skeptical of the reasons why they learn those fundamental theories. They would find the class more exciting and stimulating if provided with broader implications and real-life applications of the subject, as well as opportunities to creatively apply the knowledge they are learning. Practical projects, designed to illustrate the significance of the material they learn in class, are very useful to achieve this.
COURSES TAUGHT
Assistant & Associate Professor, Department of Mechanical Engineering, KAIST
  • ME231 Solid Mechanics (Spring 2012, Spring 2013, Spring 2015, Spring 2016, Spring 2017, Spring 2018)
  • ME307 Applied Electronics (Spring 2009, Spring 2010)
  • ME340 Engineering Design (Fall 2016, Fall 2017)
  • ME432 Deformation, Fracture, and Strength of Materials (Spring 2011)
  • ME800C Principles and Applications of Sensor Engineering (Fall 2009): Developed for graduate students to learn the fundamentals and applications sensor devices and systems
  • ME505 Sensor and Instrumentation Engineering (Fall 2010, Fall 2011, Fall 2012, Fall 2015, Fall 2015, Fall 2017): Developed for graduate students to understand the physical principles and design of sensing devices and methods of sensor instrumentation
  • MAE526 Nanofabrication process (Fall 2013, Fall 2018): Developed for graduate students to learn the basic principles and applications of nanofabrication processes
  • HS100 Freshman Seminar (Spring 2009, Fall 2010): Developed for undergraduate students to learn basic knowledge about nanotechnology (nanomachines, nano/biotechnology, and nanomanufacturing)
  • ED100 Freshman Design (Fall 2010, Fall 2011): Project advisor for “Mechanical energy harvesters for portable electronic devices”

RESEARCH EXPERIENCES (before KAIST)

  • RESEARCH SPECIALIST Dec 2007-Nov 2008
    Berkeley Sensor and Actuator Center (BSAC), University of California, Berkeley, USA

    • Development of multifunctional nanosensor array and microfluidic device for in-vitro physiological monitoring of biomass energy conversion process in conjuction with synchrotron radiation-based Fourier transform infrared (SR-FTIR) spectromicroscopy [Collaboration with Dr. Hoi-Ying Holman at Lawrence Berkeley National Lab and Ms. Robin Miles at Lawrence Livermore National Lab]
    • Development of novel top-down, bottom-up hybrid nanofabrication technologies for low-cost, high-throughput, and environmentally benign nanomanufacturing process for electronic, sensor, and energy conversion devices [Collaboration with Dr. Stan Williams at Hewlett-Packard Labs
    • Development of nanowire-based biosensor for in-situ DNA, RNA hybridization / dehybridization monitoring and sickle cell disease diagnosis [Collaboration with Dr. Frans Kuypers at Children’s Hospital & Research Center Oakland; CHORI]
  • GRADUATE STUDENT RESEARCHER (GSR) Dec 2003-Nov 2007
    Berkeley Sensor and Actuator Center (BSAC), University of California, Berkeley, USA

    • Development of silicon nanowire based real-time chemical and biological sensors with high sensitivity and detection speed
    • Development of novel selective surface functionalization method for silicon nanowires via nanoscale Joule heating of silicon nanowires for the improvement of sensitivity and detection limit
    • Development of direct nanoimprinting process of electrically / biologically functional materials (eg. polysaccharide, protein, metal nanoparticles, and quantum dots) for high-throughput, high precision, environment-friendly, and low-cost nanopatterning in bio/nano sensor and flexible electronics applications
    • Development of top-down/bottom-up hybrid nanomanufacturing of ZnO nanowire-based field effect transistor (FET) based on metal and semiconductor nanoparticle precursors
  • RESEARCH ASSISTANT (RA) Jun 2002-July 2003
    MEMS Research Group, University of Illinois, Urbana-Champaign, USA

    • Investigation of mechanical and thermal characteristics of refractory materials (eg. Ta2O5, Al2O3) at high temperature
    • Design of microscale thermal insulation for high-temperature micro-chemical reactor with multi-stack of multi-layer thin-film with low emissivity and high reflectivity
    • Study of diffusion kinetics in multi-layer thin-films at high temperature
  • RESEARCH ASSISTANT (RA) Dec 1997-Dec 1998
    Telerobotics Laboratory, KAIST, Daejeon, Republic of Korea

    • Optimal design of trajectory planning and analyzed vibration characteristics for 4-axis Cartesian linear-motion robot
    • Development of fast and precise micro-positioning control structure of 6-dof Stewart-platform parallel manipulator (slave robot) for telerobotic microsurgery system and a real-time bilateral force-position control structure between hand controller (master) and slave robot using C++ in VxWorks real-time OS.

PROFESSIONAL ACTIVITIES & SERVICES (at KAIST)

  • ACADEMIC SOCIETY MEMBERSHIP
    • Member, American Society of Mechanical Engineers (ASME)
    • Member, Institute of Electrical and Electronics Engineers (IEEE)
    • Member, Material Research Society (MRS)
    • Board Member, Korean Society of Mechanical Engineers, Micro-Nano Division (KSME)
    • Board Member, Korean Society of Precision Engineering, Nano-Micro Division (KSPE)
    • Board Member, Korean Society of Manufacturing Technology Engineers (KSMTE)
    • Board Member, Korean Sensor Society (KSS)
    • Board Member, Korean Society of Micro and Nano Systems
    • Board Member, Korean BioChip Society
    • Board Member, Korea Society for Composite Materials
    • Board Member, Korea Flexible and Printed Electronics Society
  • PROFESSIONAL SERVICES
    • Organizing Committee & Technical Program Committee
      • Technical Program Committee, IEEE Sensors 2018 Conference, 2018
      • Technical Program Committee, Transducers 2017
      • Co-Chair of Technical Program Committee, International Meeting on Chemical Sensors (IMCS), 2016
      • Technical Program Committee, IEEE Sensors 2015 Conference, 2015
      • Organizing Committee, Annual Meeting of Korea Sensor Society, 2015
      • Program Chair, UCSD-KAIST Symposium for International Collaboration, 2015
      • Organizing Committee, Fall Meeting of Korean Society Mechanical Engineers, 2015
      • Technical Program Committee, ASME InterPACK 2015 Conference, 2015
      • Program Committee, International Contest of Applications in Nano-Micro Technologies, 2015
      • Technical Program Committee, The 17th Korea MEMS Conference, 2015
      • Organizing & Program Committee, The Nano Korea 2014 Symposium, 2014
      • Organizing Committee, Asia Nano 2014 Conference, 2014
      • Organizing Committee, The 16th Korea MEMS Conference, 2014
      • Organizing Committee, The 7th World Congress on Biomimetics, Artificial Muscles and Nano-Bio (BAMN 2013)
      • Organizing Committee, The 2nd Nano-IMP 2013 Conference
      • Technical Program Committee, 1st International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale (3M-NANO), 2011
      • Technical Program Committee, 2nd International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale (3M-NANO), 2012
      • Organizing Committee, 10th International Conference on Nanoimprint and Nanoprint Technology (NNT 2011), 2011
      • Organizing Committee, 2nd Collaborative Conference on Materials Research (CCMR), 2012
      • Organizing Committee, Spring Meeting of Korean Society of Mechanical Engineers (Micro/nanotechnology division), 2011
      • Organizing Committee and Program Co-chair, 1st KAIST-Harvard Workshop on Nanoscale Reliability, 2011
      • Organizing Committee, 1st KAIST-Chulalongkorn University Workshop on Nanotechnology, 2011
    • Journal Editorial Board / Editor Service
      • Sensors & Actuators B – Chemical, Editor
      • Scientific Reports, Editorial board member
      • International Journal of Precision Engineering and Manufacturing, Editorial board member
      • International Journal of Precision Engineering and Manufacturing – Green Technology, Editorial board member
      • Journal of Sensor Science and Technology, Editor
    • Journal Reviewer
      • Journal of Materials Science, Advanced Materials, Journal of Electrochemical Society, ACS NANO, Sensors and Actuators, Small, Journal of American Chemical Society (JACS), Nanotechnology, Langmuir, Advanced Functional Materials, Journal of Mechanical Science and Technology, Journal of Nanomaterials, International Journal of Precision Engineering and Manufacturing, Advanced Materials, Scientific Reports
    • Committee for Government Policy and R&D Masterplan
      • Committee for Government Policy and R&D Masterplan
      • Committee member, 3rd Korean National Nanotechnology Initiative Plan – Process, Measurement and Equipment Division (Ministry of Knowledge Economy & Ministry of Education, Science and Technology), 2010
      • Committee member, Committee for Nano-fusion Community (Nano-Cell) – Energy and Environment Division (Ministry of Knowledge Economy), 2011
      • Committee member, Committee for Nano-industry Technology Roadmap – Energy and Environment Division (Ministry of Knowledge Economy & Ministry of Education), 2011
      • Committee member, Committee for Nano-industry Technology Roadmap – Nanomanufacturing and Measurement (Ministry of Knowledge Economy & Ministry of Education), 2012
      • Committee member, Committee for Promising Nano-convergence Technologies – Nanomaterial synthesis and assembly (Ministry of Knowledge Economy & Ministry of Education), 2013
    • Departmental Service
      • Participating member, Personnel committee (Jul 2017-Present)
      • Committee chair, Student affairs committee (Jul 2017-Present)
      • Participating member, Student affairs committee (Jan 2009-June 2017)
      • Graduate program (MS / Ph.D.) admissions committee (Fall 2010-Present)
      • Supervisor for department clean room facility (Jan 2010-Present)
      • Supervisor for department website management (Fall 2009-Present)
      • Supervisor for department computing facility (Spring 2013-Present)
    • University Service
      • Steering committee, KAIST Institute for the NanoCentury (Apr 2009-Jun 2010)
      • Steering committee, KAIST presidential fellowship program (Oct 2010-Feb 2014)
      • Steering committee, KAIST-LG Display LGenius program (Dec 2010-Present)
      • Steering committee, KAIST-KIMM convergence program (May 2009-Present)
      • Undergraduate program admissions committee (Spring 2010-Spring 2012)
      • Participating faculty, KAIST STAR forum (Jul 2011)
      • Review committee, Undergraduate research program (URP)
      • Advisor, Happy college life courses (Feb 2011-Dec 2012)
      • Review committee for research equipment (Oct 2013-Present)
  • DISSERTATION COMMITTEE CHAIR
    Ph.D. Students

    • Completed (thesis topics) – 7 Ph.D. graduates
      • Dr. Donguk Kwon, Ph.D. in Spring 2018 (soft microstructure based pressure sensors)
      • Dr. Jung Kim, Ph.D. in Spring 2018 (nanomaterial integrated microfluidic devices)
      • Dr. Jeonghoon Yun, Ph.D. in Fall 2017 (silicon nanowire based gas sensors)
      • Dr. Sanghyuk Kim, Ph.D. in Spring 2016 (reliability characterization for printed electronics)
      • Dr. Hyeon Jin Eom, Ph.D. in Fall 2014 (largescale nanopatterning for smart window applications)
      • Dr. Daejong Yang, Ph.D. in Fall 2014 (hybrid nanomanufacturing and sensor applications)
      • Dr. Chun Yan Jin, Ph.D. in Spring 2013 (nanowire array device for molecular sensing and manipulation)
    • On-going (thesis topics) – 10 Ph.D. students
      • Mr. Jaeho Park (sensor integrated biomedical tools for in-situ disease diagnosis)
      • Mr. Kyungnam Kang (printed heterogeneous nanomaterial array for multiplexed gas sensor applications)
      • Mr. Young Yun Kim (multiplexed environment sensor module for IoT applications)
      • Mr. Yongrok Jeong (mutliplexed physical sensors for biomedical applications)
      • Ms. Jiwoo Ko (transfer printing of nanomaterials and nanostructures on textile substrate)
      • Mr. Del Orbe Henriquez Dionisio (catalytic combustion based gas sensors on MEMS platform)
      • Mr. Incheol Cho (thermal and light enhanced chemical sensors on integrated MEMS platform)
      • Mr. Minseong Kim (smart materials and structures for flexible and stretchable electronics)
      • Mr. Kyuyoung Kim (stretchable and flexible physical sensors based on liquid metal and 3D printing)
      • Mr. Seunghwan Kim (nanomaterial based physical sensors on stretchable substrate)

    M.S. Students

    • Completed (thesis topics) – 7 Ph.D. graduates
      • Mr. Yongrok Jeong, M.S. in Spring 2018 (flexible pressure sensor for RF ablation needle)
      • Mr. Min Gao, M.S. in Fall 2017 (Silicon nanomesh based gas sensor using nanosphere lithography)
      • Mr. In Cheol Cho, M.S. in Spring 2017 (Design and fabrication of MEMS platform for ultra-low power gas sensors)
      • Mr. Min Seong Kim, M.S. in Fall 2016 (Nanowire-elastomer nanocomposite for stretchable and flexible strain sensors)
      • Mr. Kyu Young Kim, M.S. in Spring 2016 (3D printing of active materials for direct fabrication of functional structures)
      • Mr. Seung Hwan Kim, M.S. in Spring 2016 (Microporous polymers for highly sensitive force and touch sensors)
      • Mr. Martin Kummann, M.S. in Spring 2016 (Development of sensor module for mobile environmental monitoring)
      • Mr. Saeb Mousavi, M.S. in Spring 2016 (Development of flexible gas sensor using electrospun nanofiber)
      • Mr. Kyungnam Kang, M.S. in Spring 2015 (Electro-hydro-dynamic printing of nanomaterials for sensors)
      • Mr. Jaeho Park, M.S. in Spring 2015 (Impedance sensor integrated biopsy needle for smart intervention)
      • Mr. Morteza Amjadi, M.S. in Fall 2014 (Stretchable and flexible strain sensor by nanocomposite)
      • Mr. Aekachan Pichitpajongkit, M.S. in Spring 2014 (Transparent electrode by 1D nanomaterials)
      • Mr. Dong Uk Kwon, M.S. in Spring 2014 (Bacteria trapping by nanowire integrated microfluidics)
      • Mr. Kasyful Fuadi, M.S. in Fall 2013 (Hybrid nanostructures for gas sensing applications)
      • Mr. Jae-Hwan Lee, M.S. in Spring 2013 (Flexible pressure sensor by directly printed nanoparticles)
      • Mr. Jeonghoon Yun, M.S. in Spring 2013 (Silicon nanowire sensor with catalytic metal nanoparticles)
      • Mr. Wonseok Lee, Fall 2012 (Thermo-compressive bonding of nanowires on metal electrodes)
      • Mr. Dong Hwan Kim, Spring 2012 (Multiplexed and flexible gas sensors by directly integrated nanowires)
      • Mr. Sang Hyeok Kim, Spring 2012 (Direct micro-patterning of functional nanoparticles)
      • Ms. Jung Kim, M.S. in Spring 2011 (Mechanical cell lysis by nanowire-integrated microchannels)
    • On-going (thesis topics) – 10 Ph.D. students
      • Jungrak Choi (soft pressure sensor based on microporous elastomer and conductive nanomaterial)
      • Hyeonggyun Kim (metal assisted chemical etching for silicon nanofilm based chemical sensors)
      • Jimin Gu (optical based stretchable strain sensors)
      • Kyoungjin Hwang (Cu-BTC based gas filters for selectivity improvement of MOX gas sensors)
      • Junseong Ahn (flexible heaters for smart textile)
      • Taehwan Kim (silicon nanomesh structure array for gas sensors)

RESEARCH GRANTS AWARDED

  • COMPLETED PROJECTS
    • PI, “Stretchable electrode materials and electrode structures for human motion detection” funded by Korea Institute of Materials Science, 2014.1.-2015.12. (KRW 100,000,000)
    • Co-PI, “Development of needle insertion type image-based interventional robotic system for biopsy and treatment of 1-cm abdominal and thoracic lesion with reduced radiation exposure and improved accuracy” funded by Seoul Asan Medical Center, 2012.6.-2016.5. (KRW 360,000,000)
    • PI, “Next generation platform for the manipulation and detection of biomolecules based on the multiphysics of nanowire array devices” funded by National Research Foundation, 2013.6.-2016.5. (KRW 147,711,000)
    • Co-PI, “Development of mobile human sensing platform” funded by KAIST Institute, 2013.1.-2015.12. (KRW 191,142,000)
    • Co-PI, “Smart IT Fusion System (Global Frontier Program)” funded by National Research Foundation, 2011.10.-2017.6. (KRW 372,000,000)
    • PI, “Smart stool for early detection of colorectal cancer”, funded by KAIST Institute, 2014.1.-2014.12. (KRW 50,000,000)
    • PI, “Flexible and stretchable strain/tactile sensors based on nanocomposite materials”, funded by Korea Institute of Machineries and Materials, 2013.8.-2014.12. (KRW 50,000,000)
    • PI, “Smart air conditioning system by human motion monitoring”, funded by Halla Visteon Climate Control Company, 2013.5.-2014.1. (KRW 30,000,000)
    • PI, “Adhesion test and characterization of multilayer thin film for flexible display”, funded by Samsung Display Company, 2013.4.-2014.3. (KRW 60,000,000)
    • Co-PI, “Development of 3D, out-of-plane bonding of nanomaterials by localized integration and EHD printing methods of nanomaterial fillers” funded by National Research Foundation, 2012.6.-2015.5. (KRW 210,000,000)
    • PI, “Survey on sensor technologies for field robotics”, funded by Samsung Heavy Industry, 2011.11.-2012.3. (KRW 10,000,000)
    • Co-PI, “Integrated functional materials for smart sensing and actuation of active stents” funded by Ministry of Knowledge Economy, 2011.6.-2013.5. (KRW 80,000,000)
    • Co-PI, “Core research for reliability analysis and improvement of printed electronics fabrication process with functional nanomaterials” funded by National Research Foundation, 2010.9.-2013.8. (KRW 240,000,000)
    • PI, “Development of multifunctional high density nanowire array devices and their bio & environment applications” funded by National Research Foundation, 2010.6.-2013.5. (KRW 179,985,000)
    • Co-PI, “Technology of nano-composite ceramics for solid oxide energy conversion” funded by Ministry of Knowledge Economy, 2010. 6 – 2013. 5. (KRW 140,400,000)
    • PI, “Multiplexed nanostructure-based sensor array platform for chemical analysis” funded by KAIST, 2011.7.-2011.12. (KRW 10,000,000)
    • PI, “Development of TiO2 nanostructure-based high performance environmental monitoring device” funded by Kyungsang nam-do Province, 2010.1.-2010.12. (KRW 35,000,000)
    • PI, “Development of high efficiency, biofuel-compatible, low temperature μ-SOFC based on three dimensional nanostructure network” funded by KAIST Institute of EcoEnergy Systems, 2010.1.-2010.12 (KRW 42,000,000)
    • PI, “Eco-friendly Hybrid nanomanufacturing for intelligent environment sensing applications” funded by Hewlett Packard Company (USA), 2009.8-2012.7. (US$ 225,000=KRW 253,840,000)
    • PI, “Development of hybrid nanomanufacturing technology and applications in the real-time environment sensor devices” funded by National Research Foundation, 2009.5. – 2012.4. (KRW 151,200,000)
    • Co-PI, “Development of metal nanoparticle-based filler and localized nanostructure bonding for the nanostructure integration” funded by National Research Foundation, 2009.6. – 2012.5. (KRW 116,000,000)
    • PI, “Development of multifunctional and integrated nanosystem technology & application to bio & environment systems” funded by KAIST, 2009.1.-2011.12.31. (KRW 250,000,000)
    • PI, “Development of key technologies for flying robots for surveillance, reconnaissance, and defenses” funded by KAIST Institute of Design of Complex Systems, 2009.1. – 2009.12. (KRW 23,250,000)
    • PI, “Development of eco-friendly hybrid nanomanufacturing technology and its applications in the ubiquitous network of real-time environ
  • ACTIVE PROJECTS as of Jul 2018
    • PI, “Core technologies for all-in-one smart skin”, funded by National Research Foundation, Korea, 2018.1.-2020.12. (KRW 460,000,000) 중견연구자 과제 (한국연구재단, 과학기술정보통신부)
    • Co-PI, “National Center for Optically-assisted Ultrahigh-precision Mechanical Systems (Yonsei University ERC)”, funded by National Research Foundation, Korea, 2015.8.1.-2023.12.31. (KRW 800,000,000) ERC 센터 과제 (한국연구재단, 과학기술정보통신부)
    • Co-PI, “Remote sensor for HNS monitoring (KRISO)”, funded by Ministry of Oceans and Fishery, Korea, 2016.1.-2022.12. (KRW 500,000,000) HNS 사고 관리기술개발 과제 (해양수산환경기술개발사업, 해양수산부)
    • Co-PI, “Core technology for low-power, multiplexed environmental sensors by using array of silicon nanowires (NNFC)”, funded by National Research Foundation, Korea, 2015.8.-2020.6. (KRW 250,000,000) 선행공정 플랫폼 과제 (한국연구재단, 과학기술정보통신부)
    • CO-PI, “Flexible Nanosensor Integrated RF Ablation System for In-vivo Tissue Pressure Measurement (Nano Fusion 2020)”, funded by Ministry of Science and ICT and Ministry of Trade, Industry and Energy, Korea, 2016.9.-2019.8. (KRW 460,000,000) 나노융합 2020과제 (과학기술정보통신부+산업통상자원부)
    • Co-PI, “Development of stretchable interconnection PCB technology for integration of elastic physical sensors (KIMM)”, funded by National Research Foundation, 2017.9-2019.8. (KRW 70,000,000) 바이오닉암 과제 (한국연구재단, 과학기술정보통신부)
    • Co-PI, “Development of ultra-compact, low power gas sensor array based on MEMS and multi-component metal oxide nanomaterials (KRICT)”, funded by National Research Foundation, 2017.09-2022.6. (KRW 812,000,000) 국민위해인자 대응사업 (한국연구재단, 과학기술정보 통신부)
    • PI, “Development of real-time monitoring systems of outgassing molecules from semiconductor processes in FOUP” funded by Samsung Semiconductor, 2015.9-Present (KRW 180,000,000) (삼성전자 ㈜)

PUBLICATIONS

  • BOOK CHAPTERS
    1. I. Park and K. Kang, “Microfabricated and nanoengineered chemical sensors for air quality monitoring system”, invited chapter for “Smart sensors for health and environment monitoring”, Springer Nature, 2017
  • INTERNATIONAL JOURNAL PUBLICATIONS (SCI)
    * Total citations=3525; h-index=28, i10-index=45 (as of Aug 4, 2018)
    * Underlined & bold: corresponding author / bold: co-author

    Articles published

    1. C-K. Kim, Y-H. Yoon, D. Kwon, S. Kim, G-W. Yoon, M.W. Rhee, J. Yun, I. Park, and J-B. Yoon, “First lateral contact probing of 55 μm pitch micro-bumps”, IEEE Journal of Microelectromechanical Systems, in press (2018)
    2. J. Zhu, X. Guo, D. Meng, M. Cho, I. Park, R. Huang, and W. Song, “A flexible comb electrode triboelectric-electret nanogenerator with separated microfibers for self-powered position, motion direction and acceleration tracking sensor”, Journal of Materials Chemistry A, in press (2018)
    3. J. Zhu, Y. Zhu, W. Song, H. Wang, M. Gao, M. Cho, and I. Park, “ Zinc oxide enhanced piezoelectret polypropylene microfiber for mechanical energy harvesting”, ACS Applied Materials & Interfaces 10, 19940-19947 (2018)
    4. A. Jarzembski, S. Hamian, J. Yun, J. Crossley, I. Park, M. Francoeur, and K. Park, “ Feedback Control of Local Hotspot Temperature Using Resistive On-Substrate Nanoheater/thermometer”, Review of Scientific Instruments 89, 064902 (2018)
    5. M. Cho, J. Yun, D. Kwon, K. Kim, and I. Park, “High-sensitivity and Low-power Flexible Schottky Hydrogen Sensor based on Silicon Nanomembrane”, ACS Applied Materials & Interfaces 10, 12870-12877 (2018)
    6. J. Suh, I. Cho, K. Kang, S. Kweon, M. Lee, H. Yoo, and I. Park, “Fully integrated and portable semiconductor-type multi-gas sensing module for IoT applications”, Sensors and Actuators B: Chemical 265, 660-667 (2018)
    7. D. Yang, J. Lee, D. Kim, I. Cho, J. Ok and I. Park, “ Flexible ultraviolet and ambient light sensor based on nanomaterial network fabricated by using selective and localized wet-chemical reactions”, Langmuir 34, 4132-4141 (2018)
    8. M. Gao, M. Cho, H. Han, Y. Jung and I. Park, “Palladium-decorated silicon nanomesh fabricated by nanosphere lithography for high performance, room temperature hydrogen sensing”, Small 14, 1703619 (2018)
    9. J. Park, W. Choi, K. Kim, W. Jung, J. Seo and I. Park, “Biopsy Needle Integrated with Electrical Impedance Sensing Microelectrode Array towards Real-time Needle Guidance and Tissue Discrimination”, Scientific Reports 8, 264 (2018)
    10. I. Kim, K. Kang, M.H. Oh, M.Y. Yang, I. Park, and Y.S. Nam, “Virus-templated Self-mineralization of Ligand-free Colloidal Palladium Nanostructures for High Surface Activity and Stability”, Advanced Functional Materials 27, 1703262 (2017)
    11. Y. Oh, H. Choi, J. Lee, H. Lee, D. Choi, S. Lee, K. Yun, S. Yoo, T. Kim, I. Park, and H. Sung, “Temperature-Controlled Direct Imprinting of Ag Ionic Ink: Flexible Metal Grid Transparent Conductors with Enhanced Electromechanical Durability”, Scientific Reports 7, 11475
    12. M. Jeon, B. Choi, J. Yoon, D. Kim, D. Kim, I. Park, and S. Choi, “Enhanced sensing of gas molecules by a 99.9% semiconducting carbon nanotube-based field-effect transistor sensor”, Applied Physics Letters 111, 022102 (2017)
    13. I. Cho, K. Kang, D. Yang, J. Yun, and I. Park, “Localized Liquid-Phase Synthesis of Porous SnO2 Nanotubes on MEMS Platform for Low Power, High Performance Gas Sensors”, ACS Applied Materials & Interfaces 9, 27111-27119 (2017)
    14. K. Kim, J. Park, J. Suh, M. Kim, Y. Jeong, and I. Park, “3D Printing of Multiaxial Force Sensors using Carbon Nanotube (CNT)/Thermoplastic Polyurethane (TPU) Filaments”, Sensors & Actuators: A. Physical 263, 493-500 (2017)
    15. J. Lee, M. Lim, M. S. Kim, B. Choi, J. Yoon, D. Kim, D. Kim, I. Park, and S. Choi, “Transparent, flexible strain sensor based on a solution-processed carbon nanotube network”, ACS Applied Materials & Interfaces 9, 26279-26285 (2017)
    16. K. Kang, D. Yang, J. Park, S. Kim, I. Cho, H. Yang, M. Cho, S. Mousavi, K. Choi, and I. Park, “Micropatterning of metal oxide nanofibers by electrohydrodynamic (EHD) printing towards highly integrated and multiplexed gas sensor applications”, Sensors and Actuators B: Chemical 250, 574-583 (2017)
    17. D. Cho, J. Park, T. Kim, J. Kim, J. Kim, I. Park, and S. Jeon, “3D Continuous Conductive Nanostructure for Highly Sensitive and Stretchable Strain Sensor”, ACS Applied Materials & Interfaces 9, 17369-17378 (2017)
    18. J. Wi, S. Lee, S. Lee, D. Oh, K. Lee, I. Park, M. Kwak, and J. Ok, “Facile three-dimensional nanoarchitecturing of double-bent gold strips on Roll-to-Roll nanoimprinted transparent nanogratings for flexible and scalable plasmonic biosensors”, Nanoscale 9, 1398-1402 (2017)
    19. H. Lee, D. Kwon, J. Cho, I. Park, and J. Kim, “Soft Nanocomposite Based Multi-point, Multi-directional Strain Mapping Sensor Using Anisotropic Electrical Impedance Tomography”, Scientific Reports 7, 39837 (2017)
    20. S. Hamian, J. Yun, I. Park, and K. Park, “ Quantitative Probing of Tip-Induced Local Cooling with a Resistive Nanoheater/thermometer”, Applied Physics Letters 109, 253114 (2016)
    21. J. Yun, J. Ahn, B. Lee, D. Moon, Y. Choi, and I. Park, “ Temperature measurement of Joule heated silicon micro/nanowires using selectively decorated quantum dots”, Nanotechnology 27, 505705 (2016)
    22. S. Mousavi, K. Kang, J. Park, and I. Park, “A Room Temperature Hydrogen Sulfide Gas Sensor Based on Electrospun Polyaniline-Polyethylene Oxide Nanofibers Directly Written on Flexible Substrates”, RSC Advances 6, 104131-104138 (2016)
    23. J. Ahn, J. Seo, T. Lee, D. Kwon, I. Park, T. Kim, and J. Lee, “Extremely Robust and Patternable Electrodes for Copy-Paper-Based Electronics”, ACS Applied Materials and Interfaces 8, 19031 (2016)
    24. D. Kwon, T. Lee, J. Shim, S. Ryu, M. Kim, S. Kim, T. Kim, and I. Park, “Highly Sensitive, Flexible and Wearable Pressure Sensor Based on a Giant Piezocapacitive Effect of Three-Dimensional Microporous Elastomeric Dielectric Layer”, ACS Applied Materials and Interfaces 8, 16922-16931 (2016)
    25. A. Teo, A. Mishra, I. Park, Y. Kim, W. Park and Y. Yoon, “Polymeric biomaterials for medical implants and devices”, ACS Biomaterials Science & Engineering 2, 454-472 (2016)
    26. M. Amjadi, K-U. Kyung, I. Park, and M. Sitti, “Stretchable, skin-mountable, and wearable strain sensors and their potential applications: A review”, Advanced Functional Materials 26, 1678-1698 (2016)
    27. Y. Oh, H. Lee, D. Choi, S. Lee, H. Kim, S. Yoo, I. Park, and H. Sung, “High-Performance, Solution-Processed, Embedded Multiscale Metallic Transparent Conductors”, ACS Applied Materials & Interfaces 8, 10937-10945 (2016)
    28. B. Choi, J. Ahn, J. Lee, J. Yoon, J. Lee, M. Jeon, D. Kim, D. Kim, I. Park, and S. Choi, “ A Bottom-Gate Silicon Nanowire Field-Effect Transistor with Functionalized Palladium Nanoparticles for Hydrogen Gas Sensors Solid State Electronics”, Solid State Electronics 114, 76-79 (2015)
    29. D. Kim, D. Yang, K. Kang, M. Lim, Z. Li, C. Park and I. Park, “In-situ integration and surface modification of functional nanomaterials by localized hydrothermal reaction for integrated and high performance chemical sensors”, Sensors and Actuators B: Chemical 226, 579-588 (2015)
    30. S. Bae, S. Park, J. Kim, J. S. Choi, K. H. Kim, D. Kwon, E-S. Jin, I. Park, D. H. Kim and T. S. Seo, “ Exogenous gene integration for microalgal cell transformation using a nanowire-incorporated microdevice”, ACS Applied Materials & Interfaces 7, 27554 (2015)
    31. S. Lee , M. Amjadi , N. M. Pugno , I. Park and S. Ryu, “Computational analysis of metallic nanowires-elastomer nanocomposite based strain sensors”, AIP Advances 5, 117233 (2015)
    32. B. Choi, D. Lee, J. Ahn, J. Yoon, J. Lee, M. Jeon, D. M. Kim, D. H. Kim, I. Park, Y. Choi, and S-J. Choi, “Investigation of optimal hydrogen sensing performance in semiconducting carbon nanotube network transistors with palladium electrodes”, Applied Physics Letters 107, 193108 (2015)
    33. H. Eom, J. Kim, J. Hur, T. Kim, S. Sung, J. Choi, E. Lee, J. Jeong and I. Park, “Nanotextured polymer substrate for flexible and mechanically robust metal electrodes by nanoimprint lithography”, ACS Applied Materials and Interfaces 7, 25171-25179 (2015)
    34. K. H. Kim, J. Kim, J. S. Choi, S. Bae, D. U. Kwon, I. Park, D. H. Kim and T. S. Seo, “Rapid, high-throughput and direct molecular beacon delivery to human cancer cells using a nanowire-incorporated and pneumatic pressure-driven microdevice”, Small (accepted)
    35. M. Amjadi, Y. Yoon, and I. Park, “Ultra-stretchable and skin-mountable strain sensors using CNTs-Ecoflex nanocomposite”, Nanotechnology 26, 375501, Aug 2015
    36. B. Choi, J.-H. Ahn, J. Lee, J. Yoon, J. Lee, M. Jeon, D.M. Kim, I. Park, and S.-J. Choi, “A bottom-gate silicon nanowire field effect transistor with functionalized palladium nanoparticles for hydrogen gas sensors”, Solid-State Electronics 104, 76-19, Aug 2015
    37. J. Yeo, S. Hong, G. Kim, I. Park, C.P. Grigoropoulos and S.H. Ko, “Laser induced hydrothermal growth of heterogeneous metal-oxide nanowire on flexible substrate by laser absorption layer design”, ACS Nano 9, 6059-6068, Jun 2015
    38. D. Yang, M. K. Fuadi, K. Kang, D. Kim, Z. Li and I. Park, “Multiplexed gas sensor based on heterogeneous metal oxide nanomaterial array enabled by localized liquid-phase reaction”, ACS Applied Materials and Interfaces 7, 10152-10161, May 2015
    39. D. Yang, K. Kang, D. Kim, Z. Li and I. Park, “Fabrication of heterogeneous nanomaterial array by programmable heating and chemical supply within microfluidic platform”, Scientific Reports 5, 8149, Jan 2015
    40. D. Yang, D.H. Kim, S.H. Ko, A.P. Pisano, Z. Li and I. Park, “Focused energy field (FEF) method for the localized synthesis and direct integration of one-dimensional nanomaterials”, Advanced Materials 27, 1207-1215, Feb 2015 (front cover paper)
    41. J-H. Ahn, J. Yun, D-I. Moon, Y-K. Choi and I. Park, “Self-heated silicon nanowires for high performance hydrogen gas detection”, Nanotechnology 26, 095501, Feb 2015
    42. S. Kim, J-H. Park, K. Kang, C-O. Park and I. Park, “Direct metal micropatterning on needle-type structures towards bioimpedance and chemical sensing applications”, Journal of Micromechanics and Microengineering, 25, 015002, Dec 2014
    43. C.Y. Jin, J. Yun, J. H. Ahn, K-C. Lee and I. Park, “Highly integrated synthesis of heterogeneous nanostructures on nanowire heater array”, Nanoscale, Vol. 6, 14428, Nov 2014
    44. E. Chong, S. Kim, J-H. Choi, D-G. Choi, J-Y. Jung, J-H. Jeong, E-S. Lee, J. Lee, I. Park and J. Lee, “Interior-architectured ZnO nanostructure for enhanced electrical conductivity via stepwise fabrication process”, Nanoscale Research Letters, Vol.9, 428, Aug 2014
    45. J. Lee, S. Kim, J. Lee, D. Yang, B.C. Park, S. Ryu and I. Park, “Stretchable strain sensor based on a metal nanoparticle thin film for human motion detection”, Nanoscale, Vol. 6, 11932, Sep 2014
    46. H. Eom, J. Lee, A. Pichitpajongkit, M. Amjadi, J-H. Jeong, E. Lee, J-Y. Lee and I. Park,”Ag@Ni core-shell nanowire network for robust transparent electrodes against oxidation and sulfurization”, Small, Vol. 10, 4171, June 2014
    47. M. Amjadi, A. Pichitpajongkit, S. Lee, S. Ryu and I. Park, “Highly Stretchable and Sensitive Strain Sensor based on Ag NWs-Elastomer Nanocomposite”, ACS Nano, Vol. 8, 5154, Apr 2014
    48. J. Kim, S. Kwon, J-K. Park, and I. Park, “ Quantum Dot-Based Immunoassay Enhanced by High-Density Vertical ZnO Nanowire Array”, Biosensors and Bioelectronics, Vol. 55, 209, May 2014
    49. J-H. Ahn, J. Yun, Y-K. Choi, and I. Park, “Palladium nanoparticle decorated silicon nanowire field-effect transistor with side-gates for hydrogen gas detection”, Applied Physics Letters, Vol. 104, 013508, Jan 2014
    50. H. Eom, J-Y. Jung, Y. Shin, S. Kim, J-H. Choi, E. Lee, J-H. Jeong, and I. Park, “Strong localized surface plasmon resonance effects of Ag/TiO2 core-shell nanowire arrays in UV and visible light for photocatalytic activity”, Nanoscale, Vol.6, 226, Jan 2014 (Front Cover Article)
    51. J. Yun, C-Y. Jin, J. H. Ahn, S-W. Jeon, and I. Park, “Self-heated silicon nanowire array: surface modification with catalytic nanoparticles by nanoscale Joule heating and its gas sensing applications”, Nanoscale, accepted, May 2013
    52. S. Kim, S. Won, G-D. Sim, I. Park, and S-B. Lee, “Tensile characteristics of metal nanoparticle films on flexible polymer substrates for printed electronics applications”, Nanotechnology, Vol. 24, 085701, Mar 2013
    53. W.S. Lee, J-H. Choi, I. Park, and J.H. Lee, “Room-temperature compressive transfer printing of nanowires for nanoelectronic devices”, Langmuir, Vol. 28, 17851, Dec 2012
    54. I. Lee, S. Kim, J. Yun, I. Park, and T-S. Kim, “Interfacial toughening of solution processed Ag nanoparticle thin films by organic residuals”, Nanotechnology, Vol. 23, 485704, Dec 2012
    55. S. Kim, W. S. Lee, J. Lee, and I. Park, “Direct micro/nano metal patterning based on two-step transfer printing of ionic metal nano-ink”, Nanotechnology, Vol. 23, 285301, Jun 2012
    56. B-S. Choi, Y. W. Lee, S. W. Kang, J. W. Hong, J. Kim, I. Park, and S-W. Han, “Multi-Metallic Alloy Nanotubes with Nanoporous Framework”, ACS Nano, Vol. 6, 5659-5667, May 2012
    57. J. Kim, J. W. Hong, D. P. Kim, J. H. Shin, and I. Park, “Nanowire-integrated microfluidic devices for facile and reagent-free mechanical cell lysis”, Lab on a Chip, Vol. 12, 2914-2921, May 2012
    58. W.S. Lee, S. Won, J. Park, J. Lee, and I. Park, “Thermo-compressive transfer printing for facile alignment and robust device integration of nanowires”, Nanoscale, Vol. 4, 3444-3449, Mar 2012
    59. S. Choi, I. Park, Z. Hao, H-Y. Holman, and A. P. Pisano, “Quantitative studies of long-term stable, top-down fabricated silicon nanowire pH sensors”, Applied Physics A, Vol. 107, 421-428, May 2012
    60. M. Lim, D. Kim, C-O. Park, Y. Lee, S-W. Han, Z. Li, R.S. Williams, and I. Park, “A new route towards ultra-sensitive, flexible chemical sensors: metal nanotubes by wet-chemical synthesis along sacrificial nanowire templates”, ACS Nano, Vol. 6, 598-608, Jan 2012
    61. C-Y. Jin, Z. Li, R.S. Williams, K-C. Lee, and I. Park, “Localized temperature and chemical reaction control in nanoscale space by nanowire array”, Nano Letters, Vol. 11, 4818-4825, Nov 2011
    62. J. Kim, Z. Li, and I. Park, “Direct synthesis and integration of functional nanostructures in microfluidic devices”, Lab on a Chip, Vol. 11, 1946-1951, Jun 2011
    63. Y. Lee, M. Lim, I. Park, and S-W. Han, “Facile Synthesis of noble metal nanotubes by using ZnO nanowires as sacrificial scaffolds and their electrocatalytic properties”, Chemical Communications, Vol. 47, 6299-6301, Apr 2011
    64. G-D. Sim, S. Won, C-Y. Jin, I. Park, S-B. Lee, and J. J. Vlassak, “Acrylic primer coating for optimized stretchability of as-deposited Ag on PET substrate”, Journal of Applied Physics, Vol. 109, 073511, Apr 2011.
    65. M. Lim, Y. Lee, S-W. Han, and I. Park, “Novel fabrication method of diverse one-dimensional Pt/ZnO hybrid nanostructures and its sensor application”, Nanotechnology, Vol. 22, 035601, Jan 2011.
    66. I. Park, Z. Li, A. P. Pisano, and R.S. Williams, “Top-down fabricated silicon nanowire sensor for real-time chemical detection”, Nanotechnology, Vol. 21, 015501, Jan 2010.
    67. S. Choi, I. Park, Z. Hao, H-Y N. Holman, A. P. Pisano, and T. I. Zohdi, “Ultra-Fast Self-Assembly of Micro-Scale Particles by Open-Channel Flow”, Langmuir, Vol. 26, 4661-4667, Nov 2009.
    68. E-U. Kim, K-J Baeg, D-Y Kim, Y-Y Noh, D-Y. Kim, T. Lee, I. Park, and G-Y. Jung, “Templated assembly of metal nanoparticles in nanoimprinted patters for metal nanowire fabrication”, Nanotechnology, Vol. 20, 355302, Aug 2009.
    69. W. Wu, W. M. Tong, J. Bartman, Y. Chen, R. Walmsley, Z. Yu, Q. Xia, I. Park, C. Picciotto, J. Gao, S-Y. Wang, D. Morecroft, J. Yang, K. K. Berggren,and R. S. Williams, “Sub-10 nm Nanoimprint Lithography by Wafer Bowing”, Nano Letters, Vol. 8, 3865-3869, Oct 2008.
    70. S-H. Ko, I. Park, H. Pan, N. Misra, M.S. Rogers, A.P. Pisano, and C. P. Grigoropoulos, “ZnO nanowire network transistor fabrication on a polymer substrate by low-temperature, all-inorganic nanoparticles solution process”, Applied Physics Letters, Vol. 92, 154102, Apr 2008.
    71. I. Park, S-H. Ko, H.Pan, E-S. Lee, J-H. Jeong, A.P. Pisano, C.P. Grigoropoulos, and J.M.J. Fréchet, “Nanoscale electronics on flexible substrate by direct nanoimprinting of metallic nanoparticles”, Advanced Materials, Vol. 20, 489-496, Feb 2008 [Highlighted as hot topic in Advances in Advance].
    72. I. Park, Z. Li, A.P. Pisano, and R.S. Williams, “Selective surface functionalization of silicon nanowires via nanoscale Joule heating”, Nano Letters, Vol. 7, No. 10, 3106-3111, Oct 2007 [Highlighted in Nature Nanotechnology].
    73. I. Park*, S-H. Ko*, H. Pan, C.P. Grigoropoulos, A.P. Pisano, C. K. Luscombe, and J. M. J. Fréchet, “Direct nanoimprinting of metal nanoparticles for low temperature nanoelectronic fabrication”, Nano Letters, Vol. 7, No. 7, 1869-1877, Jul 2007 [Highlighted in Nature Nanotechnology]. (* equal contribution)
    74. I. Park, J. Cheng, A.P. Pisano, E-S. Lee, and J-H. Jeong, “Low temperature, low pressure nanoimprinting of chitosan as a biomaterial for bio-nano technology applications”, Applied Physics Letters, Vol. 90, No.2, 093902, Feb 2007 [Featured also in Virtual Journal of Biological Physics Research Vol 13, No 5].
    75. I. Park, Z. Li, X. Li, A.P. Pisano, and R. S. Williams, “Towards silicon nanowire-based biochemical sensors for intracellular detection”, Biosensors and Bioelectronics, Vol. 22, No. 9-10, 2054-2070, Apr 2007.
    76. R. Chandrasekharan, I. Park, R.I. Masel, and M.A. Shannon, “Thermal oxidation of tantalum films at various oxidation states from 300 to 700ºC”, Journal of Applied Physics, Vol. 98, 114908, Dec 2005.
  • DOMESTIC JOURNAL PUBLICATIONS (Korean, Non-SCI)
    1. I. Park, D. Yang and K. Kang, “MEMS/nano-technologies for smart air environmental monitoring sensors”, Journal of Sensor Science and Technology 24 (5), 281-286, Sep 2015
    2. M. Cho and I. Park, “Recent Trends of light-enhanced metal oxide gas sensors : review”, Journal of Sensor Science and Technology (JSST) 25, 103-109, 2016
    3. I. Park, “Nanotechnology for advanced automotive system (review article)”, Auto Journal, Vol. 34, 30-30, Oct 2012 (domestic: Korean journal)
  • CONFERENCE PROCEEDINGS & PRESENTATIONS
    International Conferences

    1. I. Park, “Heterogeneous metal oxide nanomaterial array based gas sensors using localized, liquid phase chemical reaction”, The 12th International Conference on Ceramic Materials and Components for Energy and Environmental Applications (CMCEE 2018), July 2018, Singapore (invited)
    2. J. Park and I. Park, “pH-Responsive polymer coating for transient electronic Device with Capability of Controllable Degradation”, The 40th International Conference of the IEEE Engineering in Medicine and Biology Society (IEEE EMBC 2018), July 2018, Honolulu, HI, USA
    3. Y. Jeong, J. Park, K. Kim, and I. Park, “Development of thin film based flexible pressure sensor and its biomedical application to steam popping detection”, The 40th International Conference of the IEEE Engineering in Medicine and Biology Society (IEEE EMBC 2018), July 2018, Honolulu, HI, USA
    4. K. Kang, K. Na, J. Lee, and I. Park, “Development of NO2 gas sensor using colorimetric film and organic solar cell in self-powered system”, The 17th International Meeting on Chemical Sensors (IMCS 2018), July 2018, Vienna, Austria
    5. I. Cho, M. Cho, K. Kang, and I. Park, “Photo-activated NO2 Sensors with 1-D nanomaterials Integrated with Micro-LED for High Irradiation Efficiency”, The 17th International Meeting on Chemical Sensors (IMCS 2018), July 2018, Vienna, Austria
    6. I. Park, “Micro/nano-structured soft composite for physical sensing”, The 15th International Workshop on Nanomechanical Sensing (NMC 2018), Jul 2018, Songdo, South Korea (invited)
    7. 3I. Park, “Soft micro/ nano-composite materials for flexible/wearable physical sensors”, IEEE NEMS 2018, Apr 2018, Singapore (invited)
    8. Y. Jeong, J. Park, K. Kim, and I. Park, “Development of thin film based flexible pressure sensor and biomedical application to real-time pressure monitoring during radiofrequency ablation”, IEEE MEMS 2018, Jan 2018, Belfast, Northern Ireland
    9. J. Gu, D. Kwon, and I. Park, “Optical type strain sensor based on variable-transmittance of carbon nanotube embedded elastomer thin film”, IEEE MEMS 2018, Jan 2018,Belfast, Northern Ireland
    10. D. Kwon, K. Na, K. Kang, J-Y. Lee, and I. Park, “Flexible optical pressure sensor and its application to wearable human motion detecting device”, IEEE MEMS 2018, Jan 2018, Belfast, Northern Ireland
    11. M. Gao and I. Park, “High-performance and low-cost hydrogen sensor fabricated by using nanosphere templated method”, The 16th international conference on nanoimprint and nanoprint technology (NNT) 2017, Nov 2017, Changwon, Korea
    12. K. Kim, Y. Jeong, J. Park, and I. Park, “Bending and strain-insensitive stretchable force sensor using 3D-printed microchannel molds and liquid metal”, The 16th international conference on nanoimprint and nanoprint technology (NNT) 2017, Nov, Changwon, Korea
    13. Y. Jeong, J. Park, K. Kim, J. Gu, and I. Park, “Development of Temperature-Compensated Pressure Sensor for RF Ablation Cancer Therapy”, IEEE EMBC 2017, Jul 2017, Jeju, Korea
    14. M. Gao, M. Cho and I. Park, “Self-Assembled Honeycomb-Like Silicon Nanowire Network for a High Performance Hydrogen Sensor”, IEEE NANO 2017 (The 17th IEEE International Conference on Nanotechnology), Jul 2017, Pittsburgh, USA
    15. K. Kang, K. Na, D. Kwon, J-Y. Lee and I. Park, “Self-powered gas sensor using thin-film photovoltaic cell and microstructured colorimetric film”, Transducers 2017, Jun 2017, Kaohsiung, Taiwan
    16. D. Kwon, K. Na, K. Kang, J-Y. Lee and I. Park, “Self-powered, highly sensitive pressure sensor based on thin-film solar cell and pressure-responsive porous elastomer film”, Transducers 2017, Jun 2017, Kaohsiung, Taiwan.
    17. I. Park, “Micro/nano-devices for next generation flexible user interface”, MRS/Kavli Future of Materials Workshop: Flexible and Stretchable Bioelectronics, Apr 2017, Phoenix, AZ, USA (invited)
    18. I. Park and D. Yang, “A new route to the fabrication of heterogeneous metal oxide nanomaterial array for integrated chemical sensors”, IEEE NEMS 2017, Apr 2017, Los Angeles, USA (invited)
    19. M. S. Kim, D. Kwon, S. Kim, K. Kim, and I. Park, “Surface microstructured, stretchable strain sensor towards biaxial sensitivity and performance enhancement”, IEEE MEMS 2017, Jan 2017, Las Vegas, NV, USA
    20. K.-W. Choi, M.-H. Seo, J.-S. Lee, K. Kang, I. Park and J.-B. Yoon, “Highly aligned suspended nanowire array for self-heating type gas sensors”, IEEE MEMS 2017, Jan 2017, Las Vegas, NV, USA
    21. I. Cho, K. Kang and I. Park, “Highly integrated SnO2 nanotubes using templated ZnO nanowires for low power gas sensors”, IEEE MEMS 2017, Jan 2017, Las Vegas, NV, USA
    22. J. Yun, J.-H. Ahn, Y.-K. Choi and I. Park, “Ultra-low power hydrogen sensor by suspended and palladium coated silicon nanowire”, IEEE MEMS 2017, Jan 2017, Las Vegas, NV, USA
    23. J. Park, Y. Jeong and I. Park, “Flexible Multi-modal Micro-biosensor towards Accurate Cancer Tissue Targeting during Biopsy Process ”, IEEE MEMS 2017, Jan 2017, Las Vegas, NV, USA
    24. J. Park and I. Park, “Development of Multi-spot Impedance Sensing Biopsy Needle Based on Attachable and Flexible Sensor Film ”, IEEE EMBC 2016, Aug 2016, Orlando, FL, USA
    25. J. Yun and I. Park, “Joule Heating of Palladium Coated Silicon Nanowires for Low Power Hydrogen Gas Detection with Enhanced Sensing Performance ”, The 16th International Meeting on Chemical Sensors (IMCS 2016), July 2016, Jeju, Korea
    26. K. Kang, I. Cho and I. Park, “Electrohydrodynamic (EHD) Printing of Electrospun Nanofibers for Low-Power Metal Oxide Sensor and Gas Sensor Array ”, The 16th International Meeting on Chemical Sensors (IMCS 2016),July 2016, Jeju, Korea
    27. I. Cho, K. Kang and I. Park, “Ultra Low Power Chemoresistive Gas Sensor Using Suspended Micro-heater and 1-D Metal Oxide Nanostructure by Localized Hydrothermal Synthesis ” , The 16th International Meeting on Chemical Sensors (IMCS 2016), July 2016, Jeju, Korea.
    28. J. Park and I. Park, “Development of Attachable Polyimide Thin Film with Electrical Impedance Sensor for Tissue Discrimination”, APCOT 2016, Kanazawa, Japan
    29. K. Kim and I. Park “3D Printing of Force Sensor using Functionalized Nanocomposite Filaments” Asia-Pacific Conference of Transducers and Micro-Nano Technology (APCOT) 2016, Kanazawa, Japan, June 2016
    30. S. Kim, T. Lee, Y. Jeong, D. Kwon, M. S. Kim, T.-S. Kim, and I. Park, “A Flexible Piezoresistive Pressure Sensor Based on Carbon Nanotube-Coated Elastomer and Development of Flexible Piano Pad”, Asia-Pacific Conference of Transducers and Micro-Nano Technology (APCOT) 2016, Kanazawa, Japan, June 2016
    31. I. Park, ” Flexible and stretchable transducers based on functional nano composites”, China Semiconductor Technology International Conference (CSTIC) 2016, March 2016
    32. J. Yun, J-H. Ahn, B. Lee, D-I. Moon, Y-K. Choi and I. Park, “Temperature of Joule heated silicon microwire and nanowire measured by localized coating of quantum dots”, ASME Micro/Nanoscale Heat and Mass Transfer International Conference, Singapore, Jan 2016
    33. S. Mousavi, K. Kang, J. Park and I. Park, “Polyaniline-polystyrene nanofibers directly written on paper substrate by electrospinning, a low-cost and highly sensitive hydregen sulfide gas sensor”, IEEE MEMS 2016, Shanghai, China, Jan 2016
    34. S. Mousavi, K. Kang, J. Park and I. Park, “Exploring the gas sensing response of electrospun polyaniline nanofibers: a low-cost, low-power and sensitive hydrogen sulfide gas sensor”, 4th International Conference on Electrospinning: principles, practice and possibilities, London, UK, Dec 2015
    35. I. Park, “ Functional micro/nanostructures for flexible and wearable sensors”, Sensors Global Summit 2015, La Jolla, USA, Nov 2015 (invited)
    36. I. Park, “Functional nanomaterial-based flexible devices for environment / human monitoring”, China Nano 2015, Beijing, China, Sep 2015 (invited)
    37. D. Kwon, T. Lee, M. S. Kim, S. Kim, T.-S. Kim, and I. Park, “Porous dielectric elastomer based ultra-sensitive capacitive pressure sensor and its application to wearable sensing device”, Transducers 2015, Alaska, USA, Jun 2015
    38. M. Amjadi and I. Park, “Wearable human motion monitoring by stretchable physical sensors”, IEEE MEMS, Estoril, Portugal, Jan 2015
    39. I. Park, “Bottom-up / Top-down hybrid fabrication of functional nanomaterials”, ASME 2014 International Mechanical Engineering Congress and Exposition (IMECE), Montreal, Canada, Nov 2014 (invited)
    40. I. Park, “Wearable human motion monitoring by stretchable physical sensors”, Trillion Sensors Summit 2014, San Diego, USA, Nov 2014 (invited)
    41. J. Yun, J. Ahn, B. Lee, and I. Park, “Probing temperature on self-heated silicon microwire by selective surface modification with quantum dots”, MNE 2014, Lausanne, Switzerland, Sep 2014
    42. K. Kang, J. Park, D. Yang, S. Kim, and I. Park, “Electrohydrodynamic (EHD) paterning of metal oxide nanofibers for gas sensor aray”, MNE 2014, Lausanne, Switzerland, Sep 2014
    43. S. Kim, J. Kim, and I. Park, “The effect of NaCl solution on the mechanical characteristics of Ag nanoparticle thin film on flexible substrate”, MNE 2014, Lausanne, Switzerland, Sep 2014
    44. S. Kim, J. Lee, J. Lee, K. Kim, J. Kim, and I. Park, “Advanced electromechanical characteristics of metal nanoparticle ? nanowire hybrid films on flexible substrate”, MNE 2014, Lausanne, Switzerland, Sep 2014
    45. D. Kwon, T. Lee, M. Amjadi, S. Kim, M. S. Kim, T.-S. Kim, and I. Park, “A highly sensitive, flexible capacitive pressure sensor based on porous dielectric elastomer”, MNE 2014, Sep. 2014, Lausanne, Switzerland, Sep 2014
    46. I. Park, “Bottom-up / Top-down hybrid fabrication of functional nanomaterials”, ASME 2014 International Mechanical Engineering Congress and Exposition (IMECE), Montreal, Canada, Nov 2014 (invited)
    47. I. Park and M. Amjadi, “Human motion sensing by nanocomposite-based strain sensors”, US-Korea Conference 2014, San Francisco, USA, Aug 2014 (invited)
    48. I. Park, “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 (invited)
    49. J. Park, S. Kim, and I. Park, “A multi-pair electrode based impedance sensing biopsy needle for tissue discrimination during biopsy process”, IEEE EMBS 2014, Chicago, IL, USA, Aug 2014
    50. M. Amjadi and I. Park, “Sensitive and stable strain sensors based on the wavy structured electrodes”, IEEE NANO2014, Toronto, Canada, Aug 2014
    51. M. Amjadi, M. S. Kim, and I. Park, “Flexible and sensitive foot pad for sole distributed force detection”, IEEE NANO2014, Toronto, Canada, Aug 2014
    52. I. Park, “Wearable sensors for human and environment monitoring”, the 20th World Micromachine Summit, Sao Paulo, Brazil, May 2014(invited)
    53. D. Yang and I. Park, “Fabrication of heterogeneous nanostructure array by using microfluidic platform”, The 15th International Meeting on Chemical Sensors (IMCS 2014), Buenos Aires, Argentina, Mar 2014
    54. D. Yang and I. Park, “Multiplexed gas sensor based on heterogeneous nanostructure array fabricated by using localized hydrothermal and wet chemical reaction”, The 15th International Meeting on Chemical Sensors (IMCS 2014), D.
    55. U. Kwon, J. Kim, S. Chung, and I. Park, “A nanowire-integrated microfluidic device for hydrodynamic trapping and anchoring of bacterial cells”, IEEE MEMS 2014 Conference, San Francisco, USA, Jan 2014
    56. M. Amjadi, A. Pichitpajongkit, S. Ryu, and I. Park,”Piezoresistivity of Ag NWs-PDMS nanocomposite, IEEE MEMS 2014 Conference, San Francisco, USA, Jan 2014
    57. M. Amjadi, A. Pichitpajongkit, and I. Park, “Silver nanowire network elastomer composite based stretchable strain sensor”, The 7th World Congress on Biomimetics, Artificial Muscles and Nano-Bio (BAMN2013), Jeju, Korea, Aug 2013
    58. H. J. Jung, D. J. Yang, I. Park, and K. H. Jeong, “High numerical aperature array with light scattering nanowires”, Biomimetics, Artificial Muscles and Nano-Bio (BAMN2013), Jeju, Korea, Aug 2013
    59. D. J. Yang, J. H. Lee, D. H. Kim, and I. Park, “UV and ambient light sensor based on ZnO nanowires and TiO2 nanotubes fabricated by local and low-temperature wet chemical reaction”, Biomimetics, Artificial Muscles and Nano-Bio (BAMN2013), Jeju, Korea, Aug 2013
    60. J. H. Lee, D. Yang, S. Kim, and I. Park, “Stretchable strain sensor based on metal nanoparticle thin film for human motion detection & flexible pressure sensing devices”, Transducers 2013, Barcelona, Spain, Jun 2013
    61. D. Yang, M.K. Fuadi, Z. Li, and I. Park, “Facile fabrication of heterogeneous nanomaterial array towards low-power and multiplexed gas sensing application”, Transducers 2013, Barcelona, Spain, Jun 2013
    62. M.K. Fuadi, D. Yang, C. Park, and I. Park, “Highly sensitive NO2 gas sensor based on zinc oxide/copper oxide hybrid-nanostructures”, Transducers 2013, Barcelona, Spain, Jun 2013
    63. J. Kim, S. Kwon, J. -K. Park, and I. Park, “Quantum dot labeled immunoassay using Zinc Oxide nanowire”, Transducers 2013, Barcelona, Spain, Jun 2013
    64. H. Eom, J. Y. Jung, J. H. Jeong, and I. Park, “Enhanced photo-catalytic activities of silver/titanium dioxide open core shell nanowire array with localized surface plasmon resonance (LSPR) effect”, 2013 MRS Spring Meeting, San Francisco, CA, USA, April 2013
    65. J. H. Lee, D. Yang, S. Kim, and I. Park, “Mechanical/electrical behavior of patterned metal nanoparticle-based thin film and flexible pressure sensor applications”, 2012 MRS Fall Meeting , Boston, MA, USA, Nov 2012
    66. S. Kim, S. Won, I. Lee, T.S. Kim, S.B Lee, and I. Park, “Adhesion and tensile characteristics of solution-processed Ag nanoparticle thin films”, 2012 MRS Fall Meeting, Boston, USA, Nov 2012
    67. K. Fuadi, D. Yang, I. Park, and C-O. Park, “Nanostructured metal oxide for H2S gas sensing application at room temperature”, Materials Research Society (MRS) Fall 2012 Meeting, Boston, USA, Nov 2012
    68. D. Yang, D. Kim and I. Park, “Low-temperature, wet-chemical route to the selective and direct integration of TiO2 nanotubes via thermal-driven and template-based reactions and applications to ambient light sensors”, 2012 MRS Fall Meeting, Boston, MA, USA, Nov 2012
    69. J. Kim, J.W. Hong, D.P. Kim, J.H. Shin, and I. Park, “Fabrication of nanostructure-integrated microfluidic devices for BioMEMS applications”, International Conference of Manufacturing Technology Engineers 2012, Seoul, Korea, Oct 2012
    70. J. Kim, J.W. Hong, D.P. Kim, J.H. Shin, and I. Park, “Nanostructure-integrated microfluidics for chemical and biological applications”, The 3rd Japan-China-Korea Joint Conference on MEMS/NEMS, Shanghai, China, Sep 2012
    71. J. Kim, J.W. Hong, Y-W. Lee, B-S. Choi, D.P. Kim, J.H. Shin, S-W. Han, and I. Park, “Nanomaterial-integrated microfluidic devices for cell diagnosis and biochemical assay”, Global Congress on Nanomedicine 2012, Songdo, Korea, Sep 2012 (invited)
    72. J.H Lee, W.S. Lee, I. Park, J. Park, “Easy chemical-free alignment and integration of nanowires on device platform at room temperature”, 2012 EMRS Spring Meeting, Strasbourg, France, May 2012
    73. I. Park, D. Yang, D. Kim, Y-W. Lee, S-W. Han, and Z. Li, “Hybrid nanofabrication for multifunctional nanowire sensor applications”, The 14th International Meeting on Chemical Sensors (IMCS), Nuremburg, Germany, May 2012 (invited)
    74. W.S. Lee, I. Park, J.H. Lee, “Novel method for robust bonding and alignment of nanowires on electrodes”, 2012 MRS Spring Meeting, San Francisco, CA, USA, Apr 2012
    75. C.Y Li, Z. Li, R.S. Williams, K-C. Lee, and I. Park, “Localized temperature and chemical reaction control in nanoscale space by nanowire array”, The 3rd ASME Micro/Nanoscale Heat & Mass Transfer Conference, Atlanta, GA, USA, Mar 2012
    76. D. Kim, M. Lim, Z. Li, C-O. Park, and I. Park, “Ultra-sensitive, low-power and flexible H2S sensors based on palladium nanopartciel-coated metal oxide nanowires”, 25th International Conference on Micro Electro Mechanical Systems, Paris, France, Jan 2012
    77. I. Park, “One dimensional nanostructures for intelligent and low-power environment sensing”, 1st Annual World Congress of Nano S&T, Dalian, China, Oct 2011 (invited)
    78. S. Kim and I. Park, “Direct micro/nano-printing by two-step transfer process for metal nano-inks”, NNT 2011, Jeju, Korea, Oct 2011
    79. W.S. Lee, I. Park, J.H. Lee, “Thermocompression transfer printing process for improved bonding between nanowires and metal electrodes”, NNT 2011, Jeju, Korea, Oct 2011
    80. D. Yang, J. H. Lee, Z. Li, J-H. Kim, J. M. Park, I. Park, “Bendable and stretchable photonic sensor based on zinc oxide nanowires fabricated by novel direct integration method”, Nano Today Conference 2011, Hawaii, USA, Dec 2011
    81. C. Y. Jin, Z. Li, R. S. Williams, K. C. Lee, and I. Park, “Nanoscale localized and selective chemical reaction control through Joule heating of individually addressable nanowires”, Nano Today Conference 2011, Hawaii, USA, Dec 2011
    82. J. Kim, J.W. Hong, Z. Li, J.H. Shin and I. Park, “In-situ synthesized and patterned nanowire arrays in microfluidic chnnel for particle trapping and cell lysis applications”, microTAS 2011, Seattle, USA, Oct 2011
    83. I. Park, “Top-down, bottom-up, and hybrid nanofabrication for multifunctional nanowire electronics applications”, International Symposium on Microchemistry and Microsystems (ISMM) , Seoul, Korea, Jul 2011 (invited)
    84. D. Kim, M.A. Lim, Daejong Yang, Z. Li, J-O. Park, and I. Park, ” Locally synthesized metal oxide nanowire-device and their gas sensing applications”, Transducer 2011, Beijing, China, Jun 2011
    85. M. A. Lim, D. Kim, C-O. Park, Z. Li, and I. Park, “Hydrogen sensor based on palladium nanotube arrays fabricated by novel low-temperature hydrothermal synthesis”, Tranducers 2011, Beijing, China, Jun 2011
    86. M-A. Lim, Y-W. Lee, S-W. Han, and I. Park, “Facile route to the synthesis of metal-metal oxide hybrid nanostructures”, MRS Spring 2011, San Francisco, USA, Apr 2011
    87. S. Kim and I. Park, “Two transfer printing of wet nanomaterial inks for electronics applications”, MRS Spring 2011, San Francisco, USA, Apr 2011
    88. J. Kim and I. Park, “Facile and controlled integration of functional nanostructures in microfluidic chip”, microTAS 2010, Groningen, Netherlands, Oct 2010
    89. J. Kim and I. Park, “In-situ zinc oxide nanowire array synthesis in the microchannel for microfluidic devices”, IEEE NANO 2010 Conference, Ilsan, Korea, Aug 2010
    90. S. Kim and I. Park, “Direct metal patterning by two-step transfer printing of conductive metal nano-inks”, IEEE NANO 2010 Conference, Ilsan, Korea, Aug 2010
    91. D. Yang and I. Park, “Flexible photonic sensor based on locally synthesized metal oxide nanowire network”, IEEE NANO 2010 Conference, Ilsan, Korea, Aug 2010 (Best Paper Award)
    92. I. Park, S-H. Ko, and Z. Li, “Localized synthesis and integration of nanostructures via focused energy field (FEF) method”, Materials Research Society Spring 2010 Meeting, San Francisco, USA, Apr 2010
    93. D. Yang, S-H. Ko, Z. Li and I. Park, “Eco-friendly nanofabrication process for integrated nanostructures and its applications in photonic and environment sensors”, Nano Tech 2010 International Nanotechnology Exhibition & Conference, Tokyo, Japan, Feb 2010
    94. I. Park, “Nanomanufacturing technology for multifunctional nanodevices”, 7th Korea-US Joint Symposium: MEMS and Bioengineering, Daejon, Korea, Sep 2009 (invited)
    95. I. Park, S-H. Ko, J. Kim, J-H. Yu, C. P. Grigoropoulos, A. P. Pisano, “Templated assembly of functional nanomaterials – direct nanoimprinting process”, The 2nd Asian Symposium on Nanoimprint Lithography (ASNIL), Taipei, Taiwan, Oct 2009 (invited)
    96. S-H. Ko, I. Park, H. Park, N. Misra, and C.P. Grigoropoulos, “Low-temperature, all-inorganic nanoparticle solution process for ZnO nanowire network transistor fabrication on a polymer substrate”, 2009 ASME Summer Heat Transfer Conference, San Francisco, CA, USA, Jul 2009
    97. S. Choi, I. Park, and A. P. Pisano, “Self-assembled ultra-thin silica layers for on-chip chromatography”, Materials Research Society (MRS) Spring 2009 Meeting, San Francisco, CA, USA, Apr 2009
    98. I. Park, S-H. Ko, H. Pan, A. P. Pisano, and C. P. Grigoropoulos, “Nanoscale patterning and electronics on flexible substrate by direct nanoimprinting of metallic nanoparticles”, Materials Research Society (MRS) Spring 2009 Meeting, San Francisco, CA, USA, Apr 2009
    99. I. Park, S-H. Ko, S. Choi, A. P. Pisano, and C. P. Grigoropoulos, “Localized synthesis of metal oxide nanowires”, Materials Research Society (MRS) Spring 2009 Meeting, San Francisco, CA, USA, Apr 2009
    100. I. Park, S-H. Ko, Z. Li, A.P. Pisano, and C. P. Grigoropoulos, “Multifunctional nanowire array for chemical sensing and manipulation”, Transducers 2009, Denver, CO, USA, Jun 2009
    101. S. Choi, I. Park, and A.P. Pisano, “A novel analytical model for thermoplastic deformation of resist in thermal nanoimprint”, The 7th International Conference on Nanoimprint and Nanoprint Technology (NNT 2008), Kyoto, Japan, Oct 2008
    102. I. Park, S.H. Ko, S. Choi, C.P. Grigoropoulos, and A. P. Pisano, “Controlled growth of metal oxide nanowires via nanoimprinting-based patterning of nanoparticle seeds”, The 7th International Conference on Nanoimprint and Nanoprint Technology (NNT 2008), Kyoto, Japan, Oct 2008
    103. W. Wu, W. M. Tong, J. Bartman, Y. Chen, R. Walmsley, Z. Yu, D. Stewart, I. Park, C. Picciotto, J. Gao, S-Y. Wang, and R. S. Williams, “A cost-effective nanoimprint lithography module”, Proceedings of SPIE Advanced Lithography, San Jose, California, Feb 2008 (invited)
    104. I. Park, S.H. Ko, A. P. Pisano, and C. Grigoropoulos, “Micro/nanoscale structure definition with metal and semiconductor nanoparticles by direct nanoimprinting for electronic applications”, Proceedings of ASME International Mechanical Engineering Cogress and Exposition (IMECE) 2007, Seattle, Washington, Nov 2007 (Best Poster Award at ASME MICRO/NANO Forum)
    105. I. Park, Z. Li, A.P. Pisano, and R.S. Williams, “Nanoscale Joule heating along silicon nanowire and its nanoscale heater application”, Proceedings of ASME International Mechanical Engineering Cogress and Exposition (IMECE) 2007, Seattle, Washington, Nov 2007
    106. I.Park, Z. Li, A. P. Pisano, and R.S. Williams, “Silicon nanowire array as a biochemical sensor / nano-heater and its potential applications in cellular protein detection”, Proceedings of MicroTAS 2007, Paris, France, Oct 2007
    107. S-H. Ko, I. Park, H. Pan, C.P. Grigoropoulos, and A.P. Pisano, “Low temperature OFET (organic field effect transistor) fabrication by metal nanoparticle imprinting”, Proceedings of ASME-JSME Thermal Engineering and Summer Heat Transfer Conference, Vancouber, BC, Canada, Jul 2007
    108. W. Wu, W. M. Tong, J. Bartman, Y. Chen, Z. Yu, D. Stewart, I. Park, C. Picciotto, J. Gao, R. Walmsley, S-Y. Wang, and R. S. Williams, “A cost-effective nanoimprint lithography module”, Proceedings of the International Conference on Electron, Ion, and Photon Beam Technology and Nanofabrication (EIPBN) 2007, Denver, CO, USA, May 2007
    109. I. Park, Z. Li, and A.P. Pisano, “Selective functionalization of silicon micro/nanowire sensors via localized Joule heating”, Proceedings of 2nd International Conference on Nano-micro Engineered and Molecular Systems (IEEE-NEMS 2007), Bangkok, Thailand, Jan 2007
    110. I. Park, Z. Li, X. Li, A.P. Pisano, and R. S. Williams, “Silicon nanowire-based biochemical sensors for intracellular detection”, Proceedings of Biosensors 2006, Toronto, Canada, May 2006
    111. J. Gao, C. Picciotto, W. Wu, I. Park, and W. Tong, “nDSE-based overlay alignment: enabling technology for nanometrology and fabrication”, Proceedings of SPIE Symposium on Microlithography, San Jose, USA, Feb 2006
    112. I. Park, D.J. Hwang, A. P. Pisano, and C. P. Grigoropoulos, “Planar off-chip microelectrode for electrophysiological measurement of small biological cells”, Proceedings of 3rd International IEEE-EMBS Special Topics Conference on Microtechnologies in Medicine and Biology, Hawaii, USA, May 2005
  • Domestic Conferences (Korea)
    1. Yongrok Jeong, Jaeho Park, Kyuyoung Kim and Inkyu Park, “박막형 유연 압력 센서의 제작과 고주파소작술환경 내 실시간 압력 모니터링에의 활용”, KMEMS 2018, Apr 2018, Jeju
    2. Kyungnam Kang, Kwangmin Na, Donguk Kwon, Jung-Yong Lee and Inkyu Park, “Self-powered NO2 gas sensor using colorimetric material coated micro/nano structured film and organic photovoltaic cell”, KMEMS 2018, Apr 2018, Jeju
    3. Jungrak Choi, Donguk Kwon and Inkyu Park, “Highly Sensitive and Flexible Pressure Sensor Based on Porous Elastomeric Dielectric Containing Conductive Filler”, KMEMS 2018, Apr 2018, Jeju
    4. Kyungnam Kang, Kwangmin Na, Donguk Kwon, Jung-Yong Lee and Inkyu Park, “Self-powered colorimetric gas sensor using organic solar cell and micro/nano structured film”, 한국정밀공학회, Dec 2017, Gwangju
    5. Min Seong Kim, Seonggi Kim, Sunjong Oh, Youngdo Jung, Hyuneui Lim and Inkyu Park, “Development of a skin-like soft composite using thermochromic and its application(감온염료를 이용한 피부색의 유연 복합체 개발 및 응용)”, 한국정밀공학회, Dec 2017, Gwangju
    6. Kyuyoung Kim, Yongrok Jeong, Jaeho Park and Inkyu Park, “Ultra-stretchable force sensor with bending and strain-insensitivity using serpentine multichannel structures (서펜타인 멀티채널 구조를 이용한 굽힘과 인장에 독립적인 신축성 힘 센서)”, 한국정밀공학회, Dec 2017, Gwangju(Best Poster Award)
    7. Min Seong Kim, Sunjong Oh, Seonggi Kim, Hyuneui Lim and Inkyu Park, “Development of pressure and temperature sensitive polymer composite with skin-like color for a hand prosthetic(의수로의 응용을 위해 압력 및 온도를 동시에 감지하는 피부색의 폴리머 복합체 개발)”, 한국생산제조학회, Dec 2017, Jeju
    8. Hyeonggyun Kim, Kyungnam Kang , Incheol Cho and Inkyu Park, “산화루테늄 수화물 기반, 일산화탄소 기체에 대해 선택성을 가지는 상온구동 가스 센서”, 한국생산제조학회, Dec 2017, Jeju
    9. Jimin Gu, Donguk Kwon and Inkyu Park, “High-speed and Selective CO Gas Sensor Based on Hydrous Ruthenium Oxide Film for Roomtemperature Operation”, 한국센서학회, Nov 2017, Daejeon
    10. Hyeonggyun Kim, Kyungnam Kang, Incheol Cho and Inkyu Park, “Optical Transmittance Variation Based Strain Sensor Using Carbon Nanotube Embedded Elastomer”, 한국센서학회, Nov 2017, Daejeon
    11. Yongrok Jeong, Jaeho Park, Kyuyoung Kim, Jimin Gu and Inkyu Park, “Development of Temperature-Compensated Contact Resistance Based Pressure Sensor”, 한국센서학회, Nov 2017, Daejeon (Best Paper Award)
    12. Seunghwan Kim and Inkyu Park, “Development of flexible foot insole for monitoring of foot pressure distribution using CNT-coated porous elastomer based pressure sensors”, 한국 센서학회, Nov 2017, Daejeon (Best Paper Award)
    13. Kyuyoung Kim, Yongrok Jeong, Jaeho Park and Inkyu Park, “Bending and strain-insensitive force sensor for the wearable device applications”, 한국센서학회, Nov 2017, Daejeon
    14. Seunghwan Kim, Inkyu Park, “Development of flexible foot pad using carbon nanotube coated porous elastomer layer based flexible pressure sensor and flexible printed circuit board”, 대한기계학회, May 2017, Busan
    15. Kyungnam Kang, Kwangmin Na, Donguk Kwon, Jung-Yong Lee, Inkyu Park, “Self-powered NO2 gas sensor using photovoltaic cell and color change of microstructured film(태양전지와 마이크로 구조물 필름의 색 변화를 이용한 자가 발전식 NO2 가스센서)”, 대한기계학회, May2017, Busan
    16. Incheol Cho, Kyungnam Kang, Junghoon Yoon, and Inkyu Park, “Localized Synthesis Method for SnO2 Nanotubes and Application on Low Power Gas Sensors”, 한국세라믹학회, Apr2017, Gunsan
    17. Kyungnam Kang, Incheol Cho, Jaeho Park, Sanghyeok Kim, and Inkyu Park, “Fabrication of low power metal oxide gas sensor array by using electrohydrodynamic printing of electrospun nanofibers”, 한국세라믹학회, Apr 2017 , Gunsan
    18. Min Gao and Inkyu Park, “Palladium Nanowire Network via Nanosphere Lithography for Hydrogen Sensor Application”, NANO KOREA 2017, Jul 2017, Ilsan
    19. Min Gao, Jeonghoon Yun and Inkyu Park, “Palladium Decorated Porous Silicon Thin Film Transistor for An Ultra-Low Power Hydrogen Sensor at Room Temperature”, KMEMS 2017, Mar 2017, Jeju
    20. Incheol Cho, Kyungnam Kang, Junghoon Yoon and Inkyu Park, “Direct Synthesis of SnO2 Nanotubes on Suspended Microheaters for Low Power Gas Sensors”, KMEMS 2017, Mar 2017, Jeju
    21. Donguk Kwon, Kwangmin Na, Kyungnam Kang, Jung-Yong Lee and Inkyu Park, “Solar Cell Integrated Flexible Optical Pressure Sensor Based on Porous Elastomer Film Towards Self-Powered Sensing Platform (자가발전형 감지 플랫폼을 위한 태양전지가 집적된 다공성 탄성체 필름 기반 광학식 유연 압력센서)”, KMEMS 2017, Mar 2017, Jeju (Best Paper Award)
    22. Yongrok Jeong, Jaeho Park, Kyuyoung Kim and Inkyu Park, “Fabrication of Ultra-Thin and Flexible Capacitive Type Pressure Sensor (초박형 정전 용량 기반 유연 압력 센서 제작)”, KMEMS 2017, Mar 2017, Jeju
    23. Kyuyoung Kim, Jihoon Suh, Jaeho Park, Minseong Kim, and Inkyu Park, “3D-PRINTED CAPACITIVE SENSOR FOR MULTIDIRECTIONAL FORCE SENSING”, KMEMS 2017, Mar 2017, Jeju
    24. Jaeho Park, Yongrok Jeong and Inkyu Park, “Development of flexible multi-modal physical/chemical sensors towards accurate biopsy process”, The Korean Sensors Society Conference 2016, Nov 2016, Daegu (Best Paper Award)
    25. Incheol Cho, Kyungnam Kang and Inkyu Park, “Direct Synthesis of SnO2 Nanotubes on Microheatersfor Low Power Gas Sensors”, The Korean Sensors Society Conference 2016, Nov 2016, Daegu
    26. K. Kim, J.-H. Suh, and I. Park, “3D-Printed Capacitive Tactile Sensor with a Passive Shielding(3D 프린트를 이용한 차폐된 정전용량식 촉각 센서)” The Korean Sensors Society Conference 2016, Nov 2016, Daegu
    27. Seunghwan Kim, Donguk Kwon, Min Seong Kim and Inkyu Park, “탄소나노튜브가 코팅된 다공성 탄성중합체 기반의 유연압력센서를 이용한 발바닥 압력 분포 측정 패드 디자인 (Design of foot insole for measurement of foot pressure distribution using CNT-coated porous elastomer based flexible pressure sensor)”, 한국정밀공학회 2016, Oct 2016, Yeosu
    28. Min Gao and Inkyu Park, “Self Assembly of Polystyrene Nanospheres for Sub-50nm Honeycomb Silicon Nanowire Network Transistor Fabrication”, 한국정밀공학회 2016, Oct 2016, Yeosu
    29. Min Seong Kim, Donguk Kwon, Seunghwan Kim, Kyuyoung Kim and Inkyu Park, “성능향상 및 성분 분리가 가능한 표면 마이크로 구조 기반의 유연인장센서의 개발 (Development of micro-structured stretchable strain sensor for sensitivity enhancement and strain decoupling)”, 한국정밀공학회 2016, Oct 2016, Yeosu
    30. Yongrok Jeong, Jimin Gu, Jaeho Park and Inkyu Park, “Development of Tissue Analysis Biopsy Needle Based on Glucose and pH Level Measurement”, KBCS 2016, May 2016, Seoul
    31. Seunghwan Kim, Yongrok Jeong, Donguk Kwon, Min Seong Kim and Inkyu Park, “Carbon nanotube-coated porous elastomer based flexible pressure sensor and development of flexible piano pad”, KMEMS 2016, Apr 2016, Jeju
    32. Min Seong Kim, Donguk Kwon, Seunghwan Kim and Inkyu Park, “Structure Design and Simulation for Multi-directional Stretchable Strain Sensor”, KMEMS 2016, Apr 2016, Jeju
    33. Incheol Cho, Kyungnam Kang and Inkyu Park, “Design of PolySilicon Micro-heater for Gas Sensing Device Application”, KMEMS 2016, Apr 2016, Jeju
    34. Jaeho Park and Inkyu Park, “Development of Electrical Impedance Sensor Integrated Biopsy Needle based on Polyimide Sensor Film(폴리이미드 센서 필름 기반 임피던스 분석 생검 바늘의 개발)”, KMEMS 2016, Apr 2016, Jeju
    35. Seunghwan Kim, Tae-Ik Lee, Yongrok Jeong, Donguk Kwon, Min Seong Kim, Taek-Soo Kim, and Inkyu Park, “Carbon nanotube-coated elastomer sponge based flexible piezoresistive pressure sensor and application to flexible piano pad, The Korean Sensors Society Conference 2015(한국센서학회), Nov 2015, Pohang
    36. Donguk Kwon, Tae-Ik Lee, Seunghwan Kim, Min Seong Kim, Taek-Soo Kim, and Inkyu Park, “Flexible piezocapacitive force sensor based on sponge-like elastomer(스폰지 탄성중합체 기반의 유연 정전용량식 힘 센서)”, The Korean Sensors Society Conference 2015(한국센서학회), Nov 2015, Pohang (Best Paper Award)
    37. Incheol Cho, Kyungnam Kang and Inkyu Park, “Design of Silicon Micro-heater based on SOI wafer for gas sensing device application(SOI 웨이퍼에 기반한 가스 센서용 실리콘 마이크로 히터 설계), The Korean Society of Mechanical Engineer Conference(대한기계학회 추계학술대회), Nov 2015, Jeju Island
    38. Kyuyoung Kim and Inkyu Park, “3D Printing of Physical Sensors using CNT-Elastomer Filament(CNT-탄성중합체 필라멘트의 3D 프린팅을 이용한 물리 센서 제작)”, The Korean Society of Mechanical Engineer Conference(대한기계학회 추계학술대회), Nov 2015, Jeju Island
    39. Kyungnam Kang, Jaeho Park, Sanghyeok Kim and Inkyu Park, “Fabrication of Integrated Gas Sensor Array by Electrohydrodynamic Printing of Electrospun Nanofibers(나노섬유의 전기수력학 프린팅을 이용한 가스 센서 어레이 제작)”, The Korean Society of Mechanical Engineer Conference(대한기계학회 추계학술대회), Nov 2015, Jeju IslandK. Kim and I. Park, ” A coaxial needle system for an investigation on mechanical properties of biomaterials “, Spring Meeting of Korean Society of Mechanical Engineers, Busan, May 2015
    40. S. Kim, M. Amjadi, D. Kwon, M. Kim, and I. Park, ” Flexible force sensitive pressure sensor based on carbon nanotube-coated porous elastomer structure and its application for detection of foot pressure distribution”, Spring Meeting of Korean Society of Mechanical Engineers, Busan, May 2015 (Best Paper Award)
    41. J. Park and I. Park, “Development of biopsy needle for real-time tissue analysis based on electrical impedance measurement”, Spring Meeting of Korean Society of Mechanical Engineers, Busan, May 2015
    42. D. Kwon, T. Lee, M. Kim, S. Kim, T-S. Kim, and I. Park, “Characterization of flexible, capacitive pressure sensor based on porous dielectric layer”, Spring Meeting of Korean Society of Mechanical Engineers, Busan, May 2015
    43. J. Yun, J-H. Ahn, B. Lee, and I. Park, ” Temperature probing of Joule heated nanowire using selective functionalization of quantum dots”, Spring Meeting of Korean Society of Mechanical Engineers, Busan, May 2015
    44. S. Mousavi, K. Kang, D. Yang, J-H. Ahn, J. Yun, and I. Park, “Methanethiol gas detection by using metal oxide nanofiber sensors assisted by molecular sieves for improved selectivity”, KMEMS 2015, Jeju, Apr 2015
    45. K. Kang, D. Yang, J. Park, S. Kim, and I. Park, ” Micro-patterning of Electrospun Metal Oxide Nanofibers and Fabrication of Gas Sensor Array by Using the Electrohydrodynamic Printing “, KMEMS 2015, Jeju, Apr 2015
    46. D. Kwon, T. Lee, M. Kim, S. Kim, S. Ryu, T-S. Kim, and I. Park, “Highly sensitive, flexible and wearable pressure sensor based on porous elastomeric dielectric layer and application to human wrist pulse sensing “, KMEMS 2015, Jeju, Apr 2015
    47. S. Kim, J. Kim, and I. Park, ” Mechanical characteristics of metal nanoparticle thin film exposed to saline solution on flexible substrate”, KMEMS 2015, Jeju, Apr 2015
    48. K. Kang, J. Park, D. Yang, S. Kim, and I. Park, “Development of resistive type sensor by electrohydrodynamic (EHD) printing of sub-100um patterns of electrospun nanofibers”, The Korean Sensors Society(KSS) Conference, Samcheok, Nov 2014
    49. S. Mousavi, K. Kang, D. Yang, J-H. Ahn, J. Yun, and I. Park, “Selectivity Enhancement of Metal Oxide Gas Sensor Using Molecular Sieves for the Detection of Methanethiol Gas”, The Korean Sensors Society(KSS) Conference, Samcheok, Nov 2014
    50. D. Kwon, T-I. Lee, S. Kim, M. S. Kim, T-S. Kim, and I. Park, “Flexible capacitive type pressure sensor with porous dielectric layer”, The Korean Sensors Society (KSS) Conference, Samcheok, Nov 2014 (Best Paper Award)
    51. K. Kang, J. Park, D. Yang, S. Kim, and I. Park, “Fabrication of gas sensor array by Electrohydrodynamic (EHD) patterning of electrospun metal oxide nanofibers” NANO KOREA 2014, Seoul, Jul 2014
    52. J. Yun, J. Ahn, B. Lee, and I. Park, “Temperature measurement of Joule heated silicon microwire by selective coating of quantum dots”, NANO KOREA 2014, Seoul, Jul 2014
    53. J. Park, S. Kim, and I. Park, “Printed Micro Impedance Sensor Array on Biopsy Needle”, NANO KOREA 2014, Seoul, Jul 2014
    54. S. Kim, J. H. Kim, and I. Park, “The effect of NaCl solution on mechanical characteristics of solution processed Ag nanoparticle thin film on flexible polymer substrates”, NANO KOREA 2014, Seoul, Jul 2014 (Best Poster Award)
    55. J. Park, S. Kim, and I. Park, “Electrical impedance sensor integrated biopsy needle”, KMEMS 2014, Jeju, Apr 2014
    56. D. Yang, M. K. Fuadi, K. Kang, and I. Park, ” ZnO/CuO – CuO – ZnO nanostructure array gas fabricated by using local heating in microfluidic platform”, KMEMS 2014, Jeju, Apr 2014
    57. M. Amjadi, J. Suh, S. Ryu, H-J. Yoo, and I. Park, “High performance flexible strain sensors”, KEMS2014, Jeju, Apr 2014 (Best Paper Award)
    58. D. Kwon, Y. Park, J. Kim, Y. Cho, and I. Park, “Damage to bacterial cell wall by mechanical stimulation of ZnO nanowire array integrated in microchannel”, KMEMS 2014, Jeju, Apr 2014
    59. M. Amjadi, A. Pichitpajongkit, S. Ryu, and I. Park, “A Wearable strain sensor by piezoresistivity of Ag NW network”, The Korean Sensors Society Meeting (KSSM), Seoul, Nov 2013
    60. J. Park, S. Kim, and I. Park, ” Direct metal patterning on small curved surface with sub-mm radius of curvature by screen printing”, Fall Meeting of Korean Society of Mechanical Engineers, Jeongseon, Dec 2013
    61. D. Kwon, J. Kim, S. Jeong, and I. Park, “Microfluidic devices for trapping of bacterial cells by nanowire array”, Fall Meeting of Korean Society of Mechanical Engineers, Jeongseon, Dec 2013
    62. A. Pichitpajongkit, M. Amjadi, D. Yang, J. Lee, H. Eom, W. Kamonkhantikul, and I. Park, “Silver nanowire network based stretchable strain sensor”, KMEMS conference 2013, Jeju, Apr 2013
    63. K. Fuadi, D. Yang, C-O. Park, and I. Park, “Synthesis of CuO nanostructures by localized hydrothermal reaction and its application to toxic gas detection”, KMEMS 2013, Jeju, Apr 2013
    64. J. Lee, D. Yang, S. Kim, and I. Park, “Stretchable metal nanoparticle thin film strain sensor”, KMEMS 2013, Jeju, Apr 2013
    65. D. Yang, M. K. Fuadi, D. Kim, and I. Park, “Heterogeneous nanomaterial array by low-temperature, liquid-phase synthesis for multiplexed gas sensor”, KMEMS 2013, Jeju, Apr 2013
    66. D. Kwon, J. Kim, H. Eom, D. Kim, and I. Park, ” Microchannel integrated with ZnO-TiO2 hybrid nanotubes towards the photocatalytic inactivation of bacteria”, KMEMS 2013, Jeju, Apr 2013
    67. H. Eom, S. Sung, J. Jeong, and I. Park, “Formation of vertical ZnO nanowire arrays on flexible metal electrode for piezoelectric application”, Nano IMP 2013 conference, Milyang, Feb 2013
    68. D. Yang, D. Kim, and I. Park, “Ambient light sensor based on defect control of TiO2 nanotubes synthesized by local synthesis”, Fall Meeting of Korean Society of Mechanical Engineers, Changwon, Nov 2012
    69. J. Yun, C. Jin, and I. Park, “Selective surface functionalization of silicon nanowire array by Joule heating”, Fall Meeting of Korean Society of Mechanical Engineers, Changwon, Nov 2012
    70. W. Lee, I. Park, and J. Lee, “A novel method for simultaneous aligning and bonding of nanowires onto metal electrodes”, Spring Meeting of Korean Society of Mechanical Engineers, Daejeon, May 2012
    71. J. Lee, D. Yang, S. Kim, and I. Park, “Flexible pressure sensor by micropatterned silver nanoparticle thin film”, Spring Meeting of Korean Society of Mechanical Engineers, Daejeon, May 2012
    72. S. Kim, I. Lee, J. Yun, T. Kim, and I. Park, “Strengthening of interfacial adhesion between silver nanoparticle thin film and substrate via organic residues”, Spring Meeting of Korean Society of Mechanical Engineers, Daejeon, May 2012
    73. H. Eom, J. Jeong, and I. Park, “Photo catalytic approach of Ag/TiO2 core shell nano-wire array structure”, Spring Meeting of Korean Society of Mechanical Engineers, Daejeon, May 2012
    74. W. Lee, S. Won, J. Park, J. Lee, and I. Park, “Parallel nanowire integration based on thermo-compressive bonding”, Sprint Meeting of Korean Society Manufacturing Technology Engineers 2012, Jeju, Apr 2012
    75. W. Lee, S. Won, I. Park, and J. Lee, “Mechanically robust nanowire bonding based on low temperature, low pressure thermo-compressive bonding process”, KMEMS 2012, Jeju, Apr 2012
    76. J. Lee, D. Yang, S. Kim, and I. Park, “Flexible pressure sensor fabricated by single-step transfer printing of metal nanoparticle ink on PDMS substrate”, KMEMS 2012, Jeju, Apr 2012
    77. D. Yang, D. Kim and I. Park, “Ambient light sensor based on TiO2 nanotubes synthesized by low-temperature, liquid-phase and localized chemical reaction”, KMEMS 2012, Jeju, Apr 2012
    78. S. Kim, W. Lee, and I. Park, “Direct micropatterning of metal nanoparticle ink and application to ultraviolet sensor electrodes” KMEMS 2012, Jeju, Apr 2012
    79. W. Lee, I. Park and J. Lee, “Characterization of mechanical/electrical contacts of nanowire-metal electrode formed by thermo-compressive bonding” Semiannual Meeting of Korea Vacuum Society 2012, Pyungchang, Feb 2012
    80. I. Park, D. Kim, and M. Lim, “Nanomaterial-based environmental monitoring device technology”, Annual Meeting of Korean Sensors Society, Daejeon, Nov 2011 (invited)
    81. D. Kim, M. Lim, C-O. Park, and I. Park, “A highly sensitive and flexible nanowire-sensor based on localized thermal energy for toxic gas applications”, Fall Meeting 2011, Korean Society of Mechanical Engineers, Daegu, Nov 2011
    82. D. Yang, J. Lee, Z. Li, J-H. Kim, J. Park, and I. Park, “Flexible ZnO nanowire photonic sensor and its mechanical robustness”, Fall Meeting 2011, Korean Society of Mechanical Engineers, Daegu, Nov 2011
    83. J. Kim, J-W. Hong, Z. Li, J.H. Shin, and I. Park, “In-situ synthesized and patterned nanowire arrays in microfluidic channel for cell lysis applications”, Fall Meeting 2011, Korean Society of Mechanical Engineers, Daegu, Nov 2011
    84. I. Park, D. Kim, D. Yang, M.A. Lim, and J. Lee, “Nanomaterial-based flexible environmental sensors”, Fall Meeting 2011, Korean Society of Manufacturing Technology Engineers, Daejeon, Oct 2011
    85. I. Lee, S-H. Kim, J-H. Yoon, I. Park, and T. Kim, “Bonding reliability of silver nanoparticles”, Fall Meeting 2011, Korean Society of Precision Engineering, Kyungju, Oct 2011
    86. D. Yang, J. Lee, Z. Li, J-H. Kim, and I. Park, “ZnO nanowire photonic sensor on flexible film made by localized hydrothermal synthesis method and its sensing characteristics under bending and tensile conditions”, Spring Meeting 2011, Korean Society of Mechanical Engineers, Busan, May 2011
    87. D. Kim, M. Lim, D. Yang, Z. Li, C-O. Park, and I. Park, “Local synthesis of Pt/ZnO hybrid nanostructures for chemical sensing applications”, Spring Meeting 2011, Korean Society of Manufacturing Technology Engineers, Jeju, Apr 2011
    88. D. Kim, M. Lim, C-O. Park, and I. Park, “Intrinsic and Pt nanoparticle-coated ZnO nanowire devices based on focused thermal energy and their H2 gas sensing applications”, 13th Korea MEMS Conference, Jeju, Apr 2011
    89. C-Y. Jin, Z. Li, R.S. Williams, K-C. Lee, and I. Park, “Individually addressable nanowire array for nanoscale localized heating and chemical reaction control”, 13th Korea MEMS Conference, Jeju, Apr 2011
    90. J. Kim, Z. Li, and I. Park, “Direct synthesis and integration of ZnO nanowires in microfluidic devices”, 13th Korea MEMS Conference, Jeju, Apr 2011
    91. D. Yang, J. Lee, Z. Li, J-H. Kim, and I. Park, “Zinc oxide nanowire-based flexible photonic sensor fabricated by novel direct integration method and its integration method and its mechanical robustness characterization”, 13th Korea MEMS Conference, Jeju, Apr 2011
    92. S. Kim and I. Park, “Two-step transfer printing of metal nano-inks for printed flexible electronics fabrication”, 13th Korea MEMS Conference, Jeju, Apr 2011
    93. J. Kim and I. Park, “In-situ synthesis and integration of nanowires in microfluidic channel”, Spring Meeting 2010, Korean Society of Mechanical Engineers, Daejeon, May 2010
    94. S. Kim and I. Park, “Direct metal patterning by two-step transfer printing of conductive metal nano-inks”, Spring Meeting 2010, Korean Society of Mechanical Engineers, Daejeon, May 2010
    95. D. Yang and I. Park, “Flexible photonic sensor based on locally synthesized metal oxide nanowire network)”, Spring Meeting 2010, Korean Society of Mechanical Engineers, Daejeon, May 2010
    96. I. Park, “Top-down/bottom-up hybrid nanofabrication of multifunctional nanowire devices”, Korean Chemistry Society, Incheon, Apr 2010 (invited)
    97. D. Yang, C-O. Park, and I. Park “H2 and NO2 gas sensor using selectively synthesized and integrated metal oxide nanostructure via localized hydrothermal reaction”, 12th Korea MEMS Conference, Busan, Apr 2010
    98. I. Park, “Multifunctional nanowire array for the biochemical sensing and manipulation”, Fall Meeting 2009, Korean Society of Mechanical Engineers, Yong Pyung, Nov 2009 (invited)
    99. S-H. Ko and I. Park, “Flexible electronics by direct nanoimprinting of nanoparticles”, Fall Meeting 2009, Korean Society of Precision Engineering, Daegu, Oct 2009
    100. I. Park, “Nanomanufacturing technology for the multifunctional nanodevice applications”, Nano Korea Symposium 2009, Ilsan, Aug 2009 (invited)
    101. I. Park, S-H. Ko, A.P. Pisano, C. P. Grigoropoulos, and Z. Li, “Localized synthesis and integration of metal oxide nanostructures based on hybrid nanofabrication process and its sensor application”, Spring Meeting 2009, Korean Society of Mechanical Engineers, Seoul, May 2009
    102. I. Park, S-H. Ko, A. P. Pisano, C. P. Grigoropoulos, and Z. Li, “Selected synthesis and integration of metal oxide nanostructures on microdevices via localized hydrothermal reaction”,11th Korea MEMS Conference 2009, Jeju, Apr 2009

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