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Optical Fibers Functionally Enhanced by Photoactive Molecules
Alexey Veselov
Research output
:
Book/Report
›
Doctoral thesis
›
Collection of Articles
218
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Dive into the research topics of 'Optical Fibers Functionally Enhanced by Photoactive Molecules'. Together they form a unique fingerprint.
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Keyphrases
Optical Fiber
100%
Photoactive
100%
Self-assembled Monolayer
70%
Citrine
40%
Sensor Applications
30%
Monolayer Deposition
30%
Ca2+
20%
PH Range
20%
Photonic Crystal Fiber
20%
Multi-mode
20%
Step-index Fibers
20%
Porphyrin Derivative
20%
Tip Radius
20%
Diethylamine
20%
Optical Fiber Sensor
20%
Excitation Light
10%
Strong Fluorescence
10%
High Sensitivity
10%
High Efficiency
10%
Time Monitoring
10%
Volatile Organic Compounds
10%
Efficient Excitation
10%
Light Guiding
10%
Intensity Estimation
10%
Chemically Modified
10%
Molecular Films
10%
Optical Setup
10%
Free Base Porphyrin
10%
Optimum Geometry
10%
Fluorescence Intensity
10%
Hollow-core Photonic Crystal Fiber
10%
Langmuir-Blodgett
10%
Fluorescence Characteristics
10%
Cladding Layer
10%
Application Configuration
10%
Etched Fiber
10%
Guide Channel
10%
Tapered Fiber
10%
Zn-porphyrin
10%
Fiber Functionalization
10%
Photoactive Layer
10%
Yellow Fluorescent Protein
10%
Cladding Diameter
10%
Ion Sensor
10%
Chemical Etching
10%
Measuring System
10%
Optical Sensor
10%
Engineering
Fiber Optics
100%
Monolayers
53%
Application of Sensors
23%
Photonic Crystal Fiber
23%
Multimode
15%
Tip Diameter
15%
Step Index
15%
Fiber Optic Sensor
15%
Excitation Light
7%
Cladding Layer
7%
Fluorescence Intensity
7%
Experimental Platform
7%
Molecular Film
7%
Guided Light
7%
Optical Sensors
7%
Fluorescent Protein
7%
Tapered Region
7%
Chemistry
Glass Fiber
100%
Self Assembled Monolayer
46%
Porphyrin
26%
Photonic Crystal
20%
Cladding
13%
Diethylamine
13%
Fluorescence Intensity
6%
Base
6%
Nanofilm
6%
Volatile Organic Compound
6%
yellow
6%
Fluorescence
6%
Material Science
Glass Fiber
100%
Self Assembled Monolayer
46%
Photonic Crystal Fiber
20%
Film
6%
Surface (Surface Science)
6%