Skip to main navigation
Skip to search
Skip to main content
HSC Home
Home
Research units
Profiles
Publications
Sponsored Projects
Core Facilities
Search by expertise, name or affiliation
Generating multiple-pulse bursts for enhanced fluorescence detection
Overview
Fingerprint
Fingerprint
Dive into the research topics of 'Generating multiple-pulse bursts for enhanced fluorescence detection'. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Keyphrases
High Repetition Rate
100%
Multi-pulse
100%
Pulse Burst
100%
Enhanced Fluorescence Detection
100%
Fluorophore
75%
Long-lived
75%
Fluorescence Lifetime
50%
Probing Signal
50%
Signal-to-background Ratio
50%
Fluorescent Probe
25%
High Brightness
25%
Photostability
25%
High Concentration
25%
Picosecond
25%
Sub-nanosecond
25%
Ruthenium
25%
Short Lifetime
25%
Autofluorescence
25%
High Sensitivity
25%
Signal Enhancement
25%
Signal Amplification
25%
Direct Scattering
25%
Raman Scattering
25%
Pulsed Source
25%
Repetition Rate
25%
Background Signal
25%
Low Luminance
25%
Low Repetition
25%
Laser Excitation
25%
Highly Tunable
25%
High Signal
25%
Nanosecond Time Scale
25%
Single Pulse
25%
Time-gated Detection
25%
Ruthenium Bipyridyl
25%
MHz Repetition Rate
25%
Chemistry
Fluorescence Lifetime
100%
Ruthenium
100%
electronics
100%
Fluorescence Spectroscopy
100%
Raman Spectra
50%
Engineering
Repetition Rate
100%
Fluorophore
50%
Fluorescence Lifetime
33%
Nanosecond
33%
Probe Signal
33%
Energy Engineering
16%
Picosecond
16%
Nanosecond Time
16%
Pulsed Source
16%
Extreme Case
16%
Single Pulse
16%
Signal Amplification
16%
Laser Excitation
16%
Limiting Factor
16%
Raman Spectra
16%
Physics
Raman Spectra
100%
Fluorescence Spectroscopy
100%