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Plasmonic microscopy for biomedical imaging
Chun Yu Lin
, Ruei Yu He, Yuan Deng Su,
Shean Jen Chen
影像與生醫光電研究所
研究成果
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深入研究「Plasmonic microscopy for biomedical imaging」主題。共同形成了獨特的指紋。
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Keyphrases
Surface Plasmon
100%
Biomedical Imaging
100%
Plasmonic Microscopy
100%
Resonant Phase
60%
Surface Plasmon Resonance
60%
Plasmonic Enhancement
60%
Phase-shifting Interferometry
40%
Fluorescence Enhancement
40%
Total Internal Reflection Fluorescence Microscopy
40%
Phase Imaging
40%
Surface Plasmon Enhancement
40%
Total Internal Reflection Fluorescence
20%
Systems-based
20%
Two-photon Fluorescence
20%
Liquid Crystal Phase
20%
Living Cells
20%
High Sensitivity
20%
Two-photon Excitation
20%
Fluorescence Quantum Yield
20%
Fluorophore
20%
Imaging Systems
20%
Mach-Zehnder
20%
DNA Hybridization
20%
Spacer Dielectrics
20%
Metal Film
20%
Resonance Fluorescence
20%
Sensitive Phase
20%
Optical Modulator
20%
Fluorescence Emission
20%
Attenuated Total Reflection
20%
Biomolecular Interaction Analysis
20%
Plasmon-enhanced Fluorescence
20%
Fluorescence Method
20%
Electromagnetic Field Enhancement
20%
Local Electromagnetic Field
20%
Kinetic Study
20%
Fresnel Equations
20%
Ultrafast Laser
20%
Common Path
20%
Cell Contact
20%
Biosubstrates
20%
Live Cell Membranes
20%
Local Electric Field Enhancement
20%
Enhanced Image
20%
Spacer Thickness
20%
Real-time Kinetics
20%
Thrombomodulin
20%
Live Cell Image
20%
Phase Retarder
20%
Radiation Modeling
20%
Dipole Radiation
20%
Reflection Configuration
20%
TIRF Microscopy
20%
Imaging Stability
20%
Engineering
Plasmonics
100%
Surface Plasmon
100%
Total Internal Reflection
27%
Living Cell
18%
Field Enhancement
18%
Interferometry
18%
Dielectrics
9%
Observation Time
9%
DNA-DNA Hybridization
9%
Imaging Systems
9%
Electro-Optics
9%
Quantum Yield
9%
Enhanced Image
9%
Optic Modulator
9%
Fluorophore
9%
Live Cell
9%
Fluorescence Emission
9%
Kinetic Study
9%
Retarders
9%
Fresnel Equation
9%
Photon Excitation
9%
Phase Path
9%
Electric Field
9%
Liquid Crystal
9%
Physics
Surface Plasmon
100%
Surface Plasmon Resonance
37%
Optical Phase Shifting Interferometry
25%
Electromagnetic Fields
12%
Liquid Crystal
12%
Electro-Optics
12%
Ultrafast Lasers
12%
Metal Films
12%
Theoretical Model
12%
Dielectric Material
12%
Electric Field
12%
Material Science
Surface Plasmon
100%
Fluorescence Microscopy
18%
Metal Film
9%
Two-Photon Microscopy
9%
Cell Membrane
9%
Surface (Surface Science)
9%
Liquid Crystal
9%
Dielectric Material
9%
Crystalline Material
9%