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Prof. Steve Park

Associate Professor Department of Materials Science & Engineering
KAIST (Korea Advanced Institute of Science and Technology)
Organic & Nano Electronics Laboratory

Phone : +82-42-350-3320
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  • 2014: Stanford University, Stanford, CA
    Ph D, Materials Science & Engineering
  • 2010: Stanford University, Stanford, CA
    Master of Science, Materials Science & Engineering
  • 2005: University of Illinois at Urbana-Champaign (UIUC)
    Bachelor of Science, Materials Science & Engineering
Research Experience
  • 2014-2015 Postdoctoral Scientist at Columbia University, NY
  • 금속*재료 학회 신진학술상, 2020-07-15
  • 강의우수상, 한국과학기술원, 2019-02-18
  • 협회장상, Korean Printed Electronics Association (한국인쇄전자산업협회), 2018-11-28
  • Young Scientist Award (젊은 과학자상) in Soft Sensors, 2018-10-25, Active Materials and Soft Mechatronics. 2018
Selected Publication
  1. Parallel Signal Processing of a Wireless Pressure-Sensing Platform Combined with Machine-Learning-Based Cognition, inspired by the Human Somatosensory System
    Advanced Materials, 1906269, (2019). Selected as Cover Article.
  2. Electronic Skin: Recent Progress and Future Prospects for Skin-Attachable Devices for Health Monitoring, Robotics, and Prosthetics
    Advanced Materials, 1904765, (2019).
  3. Highly Uniform and Low Hysteresis Piezoresistive Pressure Sensors based on Chemical Grafting of Polypyrrole on Elastomer Template with Uniform Pore Size
    Small, 201901744, (2019).

  4. Meniscus-Guided Control of Supersaturation for the Crystallization of High Quality Metal Organic Framework Thin Films
    Chemistry of Materials, (2019).
  5. Intrinsically Stretchable Multi-functional Fiber with Energy Harvesting and Strain Sensing Capability
    Nano Energy. 55, 348-353 (2019).
  6. Inorganic polymer micropillar-based solution-shearing of large-area organic semiconductor thin-film with pillar size dependent crystal size
    Advanced Materials. 30, 1800647 (2018). Selected as Cover Article.
  7. Pressure Insensitive Strain Sensor with Facile Solution-based Process for Tactile Sensing Applications
    ACS Nano. 12, 7546 (2018). Selected as Cover Article.
  8. Effects of temperature and coating speed on the morphology of solution-sheared halide perovskite thin-films
    Journal of Materials Chemistry A. 6, 24911 (2018).
  9. Large Area Formation of Self-Aligned Crystalline Domains of Organic Semiconductors on Transistor Channels using CONNECT
    Proceedings of the National Academy of Sciences (PNAS). 112, 5561 (2015).
  10. Large Area Assembly of Densely Aligned Single-Walled Carbon Nanotubes using Solution Shearing and their Application to Short-Channel Field-Effect Transistors
    Advanced Materials. 27, 2656 (2015).
  11. Significant Enhancement of Infrared Photodetector Sensitivity using Semiconducting Single-walled Carbon Nanotube/C60 Phototransistor
    Advanced Materials. 27, 759 (2014).
  12. Stretchable Energy Harvesting Tactile Electronic Skin capable of Differentiating Multiple Mechanical Stimuli Modes
    Advanced Materials. 26, 7324 (2014).
  13. High mobility, aligned, single crystalline domains of strained TIPS-pentacene through lateral confinement of crystal growth
    Advanced Materials. 26, 3, 487 (2014).
  14. Highly Effective Sorting of Semiconducting Carbon Nanotubes Verified via Short-Channel Devices Fabricated Using Dip-Pen Nanolithography
    ACS Nano. 6, 2487 (2012).