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整合零模波導及二維過渡金屬二硫族化物奈米發射器應用於單分子即時感測(1/2)
Tai, Chao-Yi
(PI)
光電科學與工程學系
概覽
指紋
研究成果
(1)
指紋
探索此專案觸及的研究主題。這些標籤是根據基礎獎勵/補助款而產生。共同形成了獨特的指紋。
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Keyphrases
Anisotropy
50%
Biaxial Strain
100%
Biomolecular
33%
Chirality
33%
Coffee-stain Effect
50%
Composite Fabric
50%
Conductive Tracks
100%
Conical Refraction
33%
Decay Characteristics
33%
Device Performance
33%
Direct Laser Writing
50%
Direct Patterning
50%
Durability Assessment
50%
Electromechanical Response
50%
Finite-difference Time-domain Method
33%
Flip-chip Bonding
33%
Fluorescence Correlation Spectroscopy
33%
Fluorescence Lifetime
100%
Gauge Factor
50%
Good Isolation
33%
Green Laser
50%
High Strain
50%
Human Being
33%
Human Life
33%
Hysteresis-free
50%
Irradiation
50%
Laser Light
50%
Laser Profile
50%
Lithography
33%
Metallization
100%
Metallized
50%
Metallized Fabric
50%
Moderate Intensity
50%
Multi-branched Structure
33%
Nanocrystallization
50%
Nanostars
66%
Performance Standards
33%
Photon Counting
33%
Photoreduction
50%
Plasmon
33%
Plasmonic Nanoantennas
33%
Plasmonics
33%
Polyester
50%
Protein Corona
33%
Rapid Test
33%
Real-time Detection
33%
Real-time Sensing
33%
Release Cycle
50%
Second-order Optical Nonlinearity
33%
Single Molecule
33%
Smart Textiles
50%
Spandex
50%
Strain Sensing
50%
Strain Sensor
100%
Surface Tension
50%
Surface Viscosity
50%
Test Modality
33%
Textile
50%
Transition Metal Dichalcogenides
66%
Ultrafast
33%
Vaccine Development
33%
Virus
33%
Weft-knitted
50%
Weft-knitted Fabric
100%
Zeptoliter
33%
Engineering
Chip Bonding
50%
Conductive
100%
Decay Time
50%
Device Performance
50%
Durability Assessment
50%
Fluid Viscosity
50%
Fluorescence Lifetime
50%
Gauge Factor
50%
Human Life
50%
Intensifier
50%
Knitted Fabric
100%
Laser Light
50%
Lithography
50%
Metallizations
100%
Model System
50%
Multiphoton Lithography
50%
Nonlinearity
50%
One Step
100%
Performance Standard
50%
Plasmonics
100%
Potential Application
50%
Sintering
50%
Strain Sensing
50%
Time Domain Processing
50%
Transition Metal Dichalcogenide
100%
Material Science
Anisotropy
100%
Chirality
50%
Composite Fabrics
100%
Finite Difference Method
50%
Fluorescence Correlation Spectroscopy
50%
Lithography
50%
Polyester
100%
Silver
100%
Sintering
100%
Smart Textile
100%
Surface Tension
100%
Transition Metal Dichalcogenide
100%