Research
1. Nanomaterials Tool ----------------------------------------------------------------------------------------------------------------------------------------------
1.1. 2D Graphene : Soluble
< Typical GO (graphene oxide) solution (1 mg in 10 mL of water) : should be prepared just before use and should be soluble in water with brief sonication. If not, it is not GO. Threw it! >
< Typical rGO (chemically reduced graphene oxide) solution (1 mg in 10 mL of water) : should be optically clear. If not, there might be huge aggregation of as-reduced rGO plates. Threw it! >
1.2. 2D Graphene : Functional
1.3. 0D AuNP or CuNP : Conductive
1.4. 0D Au or Cu Paste : Adhesive and Conductive
1.5. 1D SWNT : Electron-Accepting
1.6. 1D AuNW or CuNW : Transparent and Conductive
1.7. 2D Boron Nitride : While Graphene and Insulating (Dielectric
1.8. 2D Phosphorene : Soluble
1.9. 0D TiO2 NP : Catalytic and Transport
1.10. Controlled Radical Polymerization : Precise and Functional
1.11. 0D PbS or CdSe Quantum Dot : Display and Solar
1.10. 0D Si Nanoparticle : Fluorescent and Biocompatible
1.11. 0D Carbon Quantum Dot : Fluorescent and Biocompatible
1.12. 0D Graphene Quantum Dot : Fluorescent and Solar
1.13. Block Copolymer : Microphase Separation (Sphere, Cylinder, Lamella, Gyroid)
1.14. Functional Polymer : Controlled Radical Polymerization, Catechol-Enriched Polymers
2. Processing Tool ------------------------------------------------------------------------------------------------------------------------------------------------
2.1. Photolithography
2.2. Spin-Coating / Bar-Coating
2.3. Screen Printing
2.4. Electrophoretic Deposition
2.5. Electrostatic Spraying (Under Construction)
2.6. Electrospinning
2.7. Sputtering
2.8. Evaporator (Under Construction)
2.9. Soft-Lithography
2.10. Ink-Jet Printing
2.11. Layer-by-Layer Multi-Deep Coater
2.12. Freeze Dryer
2.13. UV-Ozone
2.14. Schrenk Line
2.15. Tip-Sonicator (24 Tip)
2.16. Graphene CVD Chamber
2.17. Optical Microscopy with Zoom Lenz
3. Characterization Tool -------------------------------------------------------------------------------------------------------------------------------------------------
3.1. Scanning Electron Microscopy (Lab)
3.2. 4-Probe Mapping Station (Lab)
3.3. UV-Vis Spectroscopy (Lab)
3.4. Fluorescence Spectroscopy (Lab)
3.5. FT-IR Spectroscopy (Lab)
3.6. Gel-Permeation Chromatography (DMF, LiBr - Lab)
3.7. Ultracentrifuge (Lab)
3.8. Parameter Analyzer (Lab)
3.9. Polymer Solar Cell
3.10. Perovskite Solar Cell
3.11. Pseudocapacitance
3.12. Photonic Crystal Display
4. Application Tool -------------------------------------------------------------------------------------------------------------------------------------------------
4.1. Transparent Conducting Electrode (TCE)
4.2. Bezel Electrode
4.3. Graphene Field-Effect Transistor Sensor
4.4. Photodegradation
4.5. Recyclable Catalysts
4.6. Antibacterial Activity (Corporation with Prof. Gi-Sung Moon and Prof. Sung Young Park - KNUT)
4.7. Targeted Drug Delivery (Corporation with Prof. Sung Young Park - KNUT)
4.8. Bioimaging (Corporation with Prof. Sung Young Park - KNUT)
4.9. Polymer Solar Cell
4.10. Perovskite Solar Cell
4.11. Pseudocapacitance
4.12. Photonic Crystal Display
4.13. Dry CO2 Absorbing
4.14. Quantum LED
4.15. Microfluidic System (Corporation with Prof. Chan Phil Park - Chungnam National University)
4.16. High Performance Polymer Nanocomposite
4.17. Quantum Dot Solar Cell (Corporation with Prof. Byoungnam Park - Hongik University)
4.18. Li-Battery (Corporation with Prof. Byoungnam Park - Hongik University)