Journal Articles

[82] “Synergistic Integration of Laser Oxidation and Long Short-Term Memory for Advanced Odor Classification in Next-Generation Artificial Olfactory Systems”,
ACS Sensors, DOI: 10.1021/acssensors.5c00152, 2025.
(IF=8.3, JCR=Top 3.3%, 2023)

[81] “Next Generation High-Mobility 2D Chalcogenides TFT for Display Backplane”,
International Journal of Extreme Manufacturing, DOI: 10.1088/2631-7990/add4d1, 2025.
(IF=16.1, JCR=Top 0.7%, 2023)

“High-Performance Monolithic 3D CMOS Enabled by Orientation-Aligned Seedless Laser Crystallization and Ultra-Shallow Laser Activation”,
IEEE Symposium on VLSI Technology and Circuits*, T19-4, 2025.
[*Prestigious academic top conference in the field of semiconductor devices]
* Highlighted in the newspaper articles [link]

[80] “High-Resolution Patterning of Breathable Polymer Nanomesh via Double-Side UV Exposure for Fabricating Micro-Patterned Wearable Devices”,
ACS Nano, 19, 16534-16544, 2025.
(IF=17.1, JCR=Top 5.7%, 2022)

[79] “Intelligent Olfactory System Utilizing In Situ Ceria Nanoparticle-Integrated Laser-Induced Graphene”,
ACS Nano, 19, 17850-17862, 2025.
(IF=17.1, JCR=Top 5.7%, 2022)
[Supplementary Cover Article]
* Highlighted in the newspaper articles [link]

[78] “Hexagonal Metal Complex Based Mechanically Robust Transparent Ultrathin Gold µECoG for Electro-Optical Neural Interfaces”,
npj Flexible Electronics, 9, 31, 2025.
(IF=14.6, JCR=Top 2.0%, 2022)

[77] “Electronic Nose Based on a Multi-TFT Sensor Array Structure for Detecting Odorants with High Selectivity”,
Analysis & Sensing, 5, e202500003, 2025.
(IF=3.4, JCR=Top 31.6%, 2023)

[76] “Simultaneous Detection of Neural Activity and Temperature in Photothermal Neural Stimulation”,
Advanced Science, 12, 2411725, 2025.
(IF=15.1, JCR=Top 6.8%, 2022)

[75] “Study of High-Performance Nanoscale Channel Length Vertical Transistors with a Self-Aligned Blocking Layer”,
ACS Applied Materials and Interfaces, 17, 8474-8484, 2025.
(IF=9.5, JCR=Top 15.8%, 2022)

[74] “Oxygen Effects on Hopping Transport in Polycrystalline Tungsten Disulfide Transistors via Laser-assisted Doping”,
Journal of Alloys and Compounds, 1014, 178576, 2025.
(IF=6.2, JCR=Top 9.5%, 2022)

[73] “Combustion-Assisted Low-Temperature ZrO2/SnO2 Films for High-Performance Flexible Thin Film Transistors”,
npj Flexible Electronics, 8, 74, 2024.
(IF=14.6, JCR=Top 2.0%, 2022)
* Nature Portfolio and Springer Nature Communities [link]
* Highlighted in the newspaper articles [link]

[72] “Extreme Heat Flux Cooling from Functional Copper Inverse Opal-Coated Manifold Microchannels”,
Energy Conversion and Management, 315, 118809, 2024.
(IF=11.533, JCR=Top 1.81%, 2021)

[71] “Low-Temperature Nanosecond Laser Process of HZO-IGZO FeFETs towards Monolithic 3D System on Chip Integration”,
Advanced Science, 11, 2401250, 2024.
(IF=17.521, JCR=Top 5.94%, 2021)
* Highlighted in the newspaper articles [link]

[70] “Stretchable Substrate Surface-Embedded Inkjet-Printed Strain Sensors for Design Customizable On-Skin Healthcare Electronics”,
ACS Applied Electronic Materials, 6, 3147-3157, 2024.
(IF=4.7, JCR=Top 27.5%, 2022)

[69] “Flexible Multi-Electrode Neural Probe using Active-Matrix Design of Transistor Array”,
Sensors and Actuators A: Physical, 372, 115373, 2024.
(IF=4.6, JCR=Top 19.8%, 2022)

[68] “Heavily Phosphorus Doped Germanium with Local Strain Compensation Effect by Co-implantation and Rapid Thermal Process”,
Journal of Alloys and Compounds, 984, 173952, 2024.
(IF=6.371, JCR=Top 5.7%, 2021)

[67] “Ferroelectric 2D SnS2 Analog Synaptic Field-Effect Transistors”,
Advanced Science, 11, 2308588, 2024.
(IF=17.521, JCR=Top 5.94%, 2021)
* Highlighted in the newspaper articles [link]

[66] “Laser-Induced and MOF-Derived Metal Oxide/Carbon Composite for Synergistically Improved Ethanol Sensing at Room Temperature”,
Nano-Micro Letters, 16, 113, 2024.
(IF=31.6, JCR=Top 1.7%, 2023)
* Highlighted in the newspaper articles [link]

[65] “High-Detectivity Silver Telluride Nanoparticle-Based Near-Infrared Photodetectors Functionalized with Surface-Plasmonic Gold Nanoparticles”,
Applied Surface Science, 654, 159563, 2024.
(IF=7.392, JCR=Top 2.5%, 2021)

[64] “Stable Switching Behavior of Low-Temperature ZrO2 RRAM Devices Realized by Combustion Synthesis-Assisted Photopatterning”,
Journal of Materials Science & Technology, 189, 68-76, 2024.
(IF=11.2, JCR=Top 1.7%, 2023)
* Highlighted in the newspaper articles [link]

[63] “Boiling-Induced Thermal Degradation of Copper Inverse Opals and its Mitigation”,
International Communications in Heat and Mass Transfer, 151, 107250, 2024.
(IF=7.0, JCR=Top 4.7%, 2022)

[62] “Enhanced Boiling Heat Transfer via Microporous Copper Surface Integration in a Manifold Microgap”,
Applied Thermal Engineering, 241, 122325, 2024.
(IF=6.1, JCR=Top 4.7%, 2023)

[61] “Flex-to-Stretch Hybrid Electronics–Bonding-Free Robust Interface for Wearable Wireless Physiological Monitoring”,
IEEE Internet of Things Journal, 11, 15656-15666, 2024.
(IF=10.6, JCR=Top 2.2%, 2022)

[60] “Nonvolatile Flash Memory Device with Ferroelectric Blocking Layer via in- situ ALD Process”,
Applied Physics Letters, 123, 042904, 2023.
(IF=4.0, JCR=Top 29.7%, 2022)

[59] “Reducing Specific Contact Resistivity for n-type Germanium using Laser Activation Process and Nano-island Formation”,
Applied Surface Science, 638, 157967, 2023.
(IF=7.392, JCR=Top 2.5%, 2021)

[58] “Tactile Sensor Structure Optimized for Sliding Motion with High Resolution Recording of Surface Topography”,
IEEE Electron Device Letters, 44, 1184-1187, 2023.
(IF=4.9, JCR=Top 25.3%, 2022)

[57] “Semiconducting MOFs on Ultraviolet Laser-Induced Graphene with a Hierarchical Pore Architecture for NO2 Monitoring”,
Nature Communications, 14, 3114, 2023.
(IF=14.919, JCR=Top 4.86%, 2020)
* Nature Portfolio and Springer Nature Communities [link]
* Highlighted in the newspaper articles [link]

[56] “Inkjet-Printed Polyelectrolyte Seed Layer-Based, Customizable, Transparent, Ultrathin Gold Electrodes and Facile Implementation of Photothermal Effect”,
ACS Applied Materials and Interfaces, 15, 20508-20519, 2023.
(IF=10.383, JCR=Top 14.06%, 2021)

[55] “Unlocking Performance Potential of Two-Dimensional SnS2 Transistors with Solution-Processed High-k Y:HfO2 Film and Semimetal Bismuth Contact”,
Applied Surface Science, 617, 156577, 2023.
(IF=7.392, JCR=Top 2.5%, 2021)

[54] “Schottky Barrier Modulation of Bottom Contact SnO2 Thin-Film Transistors via Chloride-Based Combustion Synthesis”,
Journal of Materials Science & Technology, 148, 199-208, 2023.
(IF=10.9, JCR=Top 1.9%, 2022)

[53] “Low-Temperature Laser Crystallization of Ge Layers Grown on MgO Substrates”,
Applied Surface Science, 609, 155368, 2023.
(IF=7.392, JCR=Top 2.5%, 2021)

[52] “High and Uniform Phosphorus Doping in Germanium Through a Modified Plasma Assisted Delta Doping Process with H2 Plasma Treatment”,
IEEE Electron Device Letters, 43, 1315-1318, 2022.
(IF=4.221, JCR=Top 17.86%, 2019)

[51] “Fundamental Insights into the Electrical Signals of a Piezoelectric Sensor in a Sliding Condition”,
Nano Energy, 100, 107487, 2022.
(IF=17.881, JCR=Top 4.64%, 2020)

[50] “Combustion-Assisted Low-Temperature Solution Process for High-Performance SnO2 Thin-Film Transistors”,
Ceramics International, 48, 20591-20598, 2022.
(IF=5.532, JCR=Top 8.62%, 2021)

[49] “Detecting Temperature of Small Object using Hybrid Tactile Sensor Array and Multi-parameter Extraction Analysis”,
Sensors and Actuators A: Physical, 340, 113541, 2022.
(IF=4.291, JCR=Top 22.66%, 2021)

[48] “Applications of Thin Films in Microelectronics (Editorial)”,
Electronics, 11, 931, 2022.
(IF=2.690, JCR=Top 50.18%, 2021)

[47] “Low-Temperature Carrier Transport Mechanism of Wafer-Scale Grown Poly-Crystalline Molybdenum Disulfide Thin-Film Transistor Based on Radio-Frequency Sputtering and Sulfurization”,
Advanced Materials Interfaces, 9, 2102360, 2022.
(IF=6.389, JCR=Top 26.54%, 2021)

[46] “Sub-Zero Temperature Sensor based on Laser-Written Carbon”,
Advanced Electronic Materials, 8, 2101252, 2022.
(IF=7.633, JCR=Top 15.84%, 2021)

[45] “Channel Scaling Dependent Photoresponse of Copper-Based Flexible Photodetectors Fabricated Using Laser-Induced Oxidation”,
ACS Applied Materials and Interfaces, 14, 6977-6984, 2022.
(IF=10.383, JCR=Top 14.06%, 2021)

[44] “Ultrafast Prototyping of Large-Area Stretchable Electronic Systems by Laser Ablation Technique for Controllable Robotic Arm Operations”,
IEEE Transactions on Industrial Electronics, 69, 4245-4253, 2022.
(IF=8.236, JCR=Top 2.34%, 2020)

[43] “Ultrathin Gold Microelectrode Array using Polyelectrolyte Multilayers for Flexible and Transparent Electro-Optical Neural Interfaces”,
Advanced Functional Materials, 32, 2106493, 2022.
(IF=19.924, JCR=Top 4.66%, 2021)

[42] “Ferroelectrics Based on HfO2 Film”,
Electronics, 10, 2759, 2021.
(IF=2.412, JCR=Top 46.8%, 2019)

[41] “Sol-Gel-Processed Amorphous-Phase ZrO2 Based Resistive Random Access Memory”,
Materials Research Express, 8, 116301, 2021.
(IF=1.929, JCR=Top 64.49%, 2019)

[40] “PZT Ferroelectric Synapse Device with Multi-level of Conductance State for Neuromorphic Applications”,
IEEE Access, 9, 140975-140982, 2021.
(IF=4.098, JCR=Top 14.52%, 2018)

“Electrical Resistance Improvement Technology for Semiconductor Device Scaling”,
Weekly ICT Trends, 2011, 2-12, 2021.

[39] “Computational Thermal Analysis of the Photothermal Effect of Thermoplasmonic Optical Fiber for Localized Neural Stimulation In Vivo”,
Electronics, 10, 118, 2021.
(IF=2.412, JCR=Top 46.8%, 2019)

[38] “Laser-Induced Digital Oxidation for Copper-based Flexible Photodetectors”,
Applied Surface Science, 540, 148333, 2021.
(IF=6.707, JCR=Top 2.38%, 2020)

[37] “Conformal and Ultra-Shallow Junction Formation Achieved using a Pulsed-Laser Annealing Process Integrated with a Modified Plasma Assisted Doping Method”,
IEEE Access, 8, 172166-172174, 2020.
(IF=4.098, JCR=Top 14.52%, 2018)

[36] “Thermoplasmonic Optical Fiber for Localized Neural Stimulation”,
ACS Nano, 14, 11406-11419, 2020.
(IF=13.709, JCR=Top 4.04%, 2017)

[35] “Color Thin-Film Transistors Employing Periodic Nanohole Structures”,
ACS Applied Electronic Materials, 2, 2489-2497, 2020.
(IF=3.314, JCR=Top 34.62%, 2020)

[34] “Switching Behavior in a Vertical Tunneling Transistor by Tunneling Mechanism Transition and Floating Electrode Structure”,
ACS Applied Electronic Materials, 2, 2461-2469, 2020.
(IF=3.314, JCR=Top 34.62%, 2020)

[33] “Enhancement Mode Flexible SnO2 Thin Film Transistors via a UV/Ozone-Assisted Sol-Gel Approach”,
IEEE Access, 8, 123013-123018, 2020.
(IF=4.098, JCR=Top 14.52%, 2018)

[32] “All-day Mobile Healthcare Monitoring System Based on Heterogeneous Stretchable Sensors for Medical Emergency”,
IEEE Transactions on Industrial Electronics, 67, 8808-8816, 2020.
(IF=7.515, JCR=Top 0.78%, 2019)
* Highlighted in the newspaper articles, (https://line.dgist.ac.kr/index.php/sciencex_event/press-report-newspaper-articles/) Dec. 23, 2019.

[31] “A Fully Integrated Flexible Heterogeneous Temperature and Humidity Sensor-Based Occupancy Detection Device for Smart Office Applications”,
Advanced Materials Technologies, 4, 1900619, 2019.
(IF=5.969, JCR=Top 19.59%, 2019)

[30] “High-Detectivity Flexible Near-Infrared Photodetector Based on Chalcogenide Ag2Se Nanoparticles”,
Advanced Optical Materials, 7, 1900812, 2019.
(IF=7.125, JCR=Top 6.84%, 2018)

[29] “Effect of Annealing Environment on the Performance of Sol–Gel-Processed ZrO2 RRAM”,
Electronics, 9, 947, 2019.
(IF=1.794, JCR=Top 57.71%, 2018)

[28] “Boosting n-type Doping Levels of Ge with Co-doping by Integrating Plasma Assisted ALD and Flash Lamp Annealing Process”,
IEEE Electron Device Letters, 40, 1507-1510, 2019.
(IF=3.753, JCR=Top 23.12%, 2018)

[27] “Laser-Processed Nature-Inspired Deformable Structures for Breathable and Reusable Electrophysiological Sensors toward Controllable Home Electronic Appliances and Psychophysiological Stress Monitoring”,
ACS Applied Materials and Interfaces, 11, 28387-28396, 2019.
(IF=8.456, JCR=Top 9.04%, 2018)

[26] “Low-Temperature Behaviors of Multilayer MoS2 Transistors with Ohmic and Schottky Contacts”,
Applied Physics Letters, 115, 033501, 2019.
(IF=3.459, JCR=Top 19.52%, 2017)
* Highlighted in the journal’s new collection on 2D transistors, April 27, 2021.

[25] “Densification Control as a Method of Improving the Ambient Stability of Sol–Gel-Processed SnO2 Thin-Film Transistors”,
IEEE Electron Device Letters, 40, 905-908, 2019.
(IF=3.753, JCR=Top 23.12%, 2018)

[24] “Ultra-Short Pulsed Laser Annealing Effects on MoS2 Transistors with Asymmetric and Symmetric Contacts”,
Electronics, 8, 222, 2019.
(IF=1.794, JCR=Top 57.71%, 2018)

[23] “Color-Sensitive and Spectrometer-Free Plasmonic Sensor for Biosensing Applications”,
Biosensors & Bioelectronics, 126, 743-750, 2019.
(IF=9.518, JCR=Top 0.6%, 2018)

[22] “Single Pass Laser Process for Super-Hydrophobic Flexible Surfaces with Micro/Nano Hierarchical Structures”,
Materials, 11, 1226, 2018.
(IF=2.972, JCR=Top 34.64%, 2018)

[21] “Improvement in the Performance of Sol–Gel Processed In2O3 Thin-Film Transistor Depending on Sb Dopant Concentration”,
IEEE Electron Device Letters, 38, 1027-1030, 2017.

[20] “A High-Speed Inkjet-Printed Microelectromechanical Relay with a Mechanically Enhanced Double-Clamped Channel-Beam”,
Journal of Microelectromechanical Systems, 26, 95-101, 2017.

[19] “Laser Welding of Vertically Aligned Carbon Nanotube Arrays on Polymer Workpieces”,
Carbon, 115, 688-693, 2017.

[18] “Laser Direct Writing and Ink-Jet Printing for Sub-2μm Channel Length MoS2 Transistor with High Resolution Electrodes”,
Nanotechnology, 27, 405301, 2016.

[17] “Laser Direct Writing Process for Making Electrodes and High-k Sol-Gel ZrO2 for Boosting Performances of MoS2 Transistors”,
ACS Applied Materials and Interfaces, 8, 9314-9318, 2016.

[16] “High-Performance Flexible Multilayer MoS2 Transistors on Solution-Based Polyimide Substrates”,
Advanced Functional Materials, 26, 2426-2434, 2016.
[Front Cover Article]

[15] “Facile Fabrication of a Superhydrophobic Cage by Laser Direct Writing for Site-Specific Colloidal Self-Assembled Photonic Crystal”,
Nanotechnology, 27, 145604, 2016.

[14] “High-Performance Inkjet-Printed 4-Terminal Microelectromechanical Relays and Inverters”,
Nano Letters, 15, 3261-3266, 2015.

[13] “Evaluation of Pulsed Laser Annealing for Flexible Multilayer MoS2 Transistors”,
Applied Physics Letters, 106, 113111, 2015.

[12] “Optically Transparent Thin-film Transistors based on 2D Multilayer MoS2 and Indium Zinc Oxide Electrodes”,
Nanotechnology, 26, 035202, 2015.

[11] “Exploitation of the Coffee-Ring Effect to Realize Mechanically Enhanced Inkjet-Printed Microelectromechanical Relays with U-Bar-shaped Cantilevers”,
Applied Physics Letters, 105, 261901, 2014.

[10] “Electrical Chracteristics for Multilayer MoS2 Transistors at Real Operating Temperatures with Different Ambient Conditions”,
Applied Physics Letters, 105, 152105, 2014.

[9] “Selective and Localized Laser-Anneal Effect for High-Performance Flexible Multilayer MoS2 Thin-Film Transistors”,
Nano Research, 7, 1137-1145 2014.
[Front Cover Article]

[8] “Analysis of Flicker Noise in Two-dimensional Multilayer MoS2 Transistors”,
Applied Physics Letters, 104, 083110, 2014.

[7] “In Situ Monitoring of Laser-Assisted Hydrothermal Growth of ZnO Nanowires: Thermally Deactivating Growth Kinetics”,
Small, 10, 741–749, 2014.

[6] “Highly-Sensitive Capacitive Touch Sensor Integrated on Thin Film Encapsulated Active-Matrix OLED for Ultra-Thin Display”,
IEEE Transactions on Electron Devices, 58, 3609-3615, 2011.

[5] “Low-power Flexible Organic Light-Emitting Diode Display Device”,
Advanced Materials, 23, 3511-3516, 2011.
[Front Cover Article]

[4] “Mechanically and Optically Reliable Folding Structure with a Hyperelastic Material for Seamless Foldable Displays”,
Applied Physics Letters, 98, 151904, 2011.

* Highlighted in PhysOrg.com, “Foldable display shows no crease after 100,000 folding cycles,” PhysOrg.com (http://www.physorg.com/news/2011-05-foldable-crease.html) May 12, 2011.

[3] “Current on/off Ratio Enhancement through the Electrical Burning Process in Ambient with/without Oxygen for the Generation of High-Performance Aligned SWNT FETs”,
Applied Physics Letters, 97, 173102, 2010.

[2] “Development of Miniature Tunable Stiffness Display using MR Fluid for Haptic Application”,
Sensors and Actuators A: Physical, 163, 180-190, 2010.

[1] “Braille Dot Display Module with a PDMS Membrane Driven by Thermopneumatic Actuator”,
Sensors and Actuators A: Physical, 154, 238-246, 2009.