7126ho Mechanical Engineering Building (N7-4)
KAIST Daejeon, Korea.
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High performance chemical & physical sensors based on functional micro/nano-structures for environmental and healthcare applications
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Research
Research Topics
High performance chemical & physical sensors based on functional micro/nano-structures for environmental and healthcare applications
Multiscale and hybrid manufacturing technologies for advanced electronics, environment
Mechanics and reliability of nanomaterial-based devices and systems
Research Demo/Video
Funded Projects
Facilities
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Professor
Post Doctor
Ph.D. Candidate
M.S. Student
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Palladium-Decorated Silicon Nanomesh Fabricated by Nanosphere Lithography for High Performance, Room Temperature Hydrogen Sensing
Focused energy field (FEF) method for the localized synthesis and direct integration of 1D nanomaterials on microelectronic devices
Soft Nanocomposite Based Multi-point, Multi-directional Strain Mapping Sensor Using Anisotropic Electrical Impedance Tomography
Highly sensitive and wearable liquid metal-based pressure sensor for health monitoring applications: Integration of a 3D-printed microbump array with the microchannel
Low-hysteresis and low-interference soft tactile sensor using a conductive coated porous elastomer and a structure for interference reduction
Wearable, ultrawide-range, and bending-insensitive pressure sensor based on carbon nanotube network-coated porous elastomer sponges for human interface and healthcare devices
Biomimetic turbinate-like artificial nose for hydrogen detection based on 3D porous laser-induced graphene
Biopsy Needle Integrated with Electrical Impedance Sensing Microelectrode Array towards Real-time Needle Guidance and Tissue Discrimination
Micropatterning of metal oxide nanofibers by electrohydrodynamic (EHD) printing towards highly integrated and multiplexed gas sensor applications
3D Continuous Conductive Nanostructure for Highly Sensitive and Stretchable Strain Sensor
Extremely Robust and Patternable Electrodes for Copy-Paper-Based Electronics
Highly Sensitive, Flexible and Wearable Pressure Sensor Based on a Giant Piezocapacitive Effect of Three-Dimensional Microporous Elastomeric Dielectric Layer
Ultra-Stretchable and Skin-Mountable Strain Sensors Using CNTs-Ecoflex Nanocomposite
Focused energy field (FEF) method for the localized synthesis and direct integration of 1D nanomaterials on microelectronic devices
Highly Stretchable and Sensitive Strain Sensor based on silver nanowire-Elastomer Nanocomposite
Heterogeneous conductance-based locally shape-morphable soft electrothermal actuator
Wearable Strain Sensor Using Light Transmittance Change of Carbon Nanotube Embedded Elastomer with Microcrack
Ultrathin, Biocompatible, and Flexible Pressure Sensor with a Wide Pressure Range and Its Biomedical Application
Microscale biosensor array based on flexible polymeric platform toward lab-on-a-needle: Real-time multi-parameter biomedical assays on curved needle surfaces
Wearable Self-Powered Pressure Sensor by Integration of Piezo-transmittance Microporous Elastomer with Organic Solar Cell
Morphology-Controllable Wrinkled Hierarchical Structure and its Application to Superhydrophobic Triboelectric Nanogenerator
Self-Powered Strain Sensor based on the Piezo-Transmittance of a Mechanical Metamaterial
Ultra-Wide Range Pressure Sensor based on Microstructured Conductive Nanocomposite for Wearable Workout Monitoring
Customizable, Conformal, and Stretchable 3D Electronics via Pre-distorted Pattern Generation and Thermoforming
Irregular Microdome Structure-Based Sensitive Pressure Sensor Using Internal Popping of Microspheres
Spherical Micro/Nano Hierarchical Structures for Energy and Water Harvesting Devices
All-Recyclable Triboelectric Nanogenerator for Sustainable Ocean Monitoring Systems
Skin-like Omnidirectional Stretchable Platform with Negative Poisson’s Ratio for Wearable Strain–Pressure Simultaneous Sensor
Biomimetic, Programmable, and Part-by-part Maneuverable Single-body Shape Morphing Film
MINT Lab was listed in the Top 10 Nano Technology Research of 2023
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