
Fluoreszenz Spektroskopie
News
- HORIBA Scientific Presents Young Fluorescence Investigator Award at Biophysical Show. Read more
- HORIBA Scientific Announces New Ultima TCSPC lifetime system, the next generation of turnkey TCSPC Fluorescence Lifetime systems...Read more
- HORIBA Scientific announces the acquisition of the Photon Technology International (PTI) Business... Read more
- HORIBA Scientific Announces New Generation of Turnkey TCSPC Fluorescence Lifetime Systems...Read more
- Aqualog CDOM Fluorometer Wins Award as one of Best New Instruments in 2011...Read more
- HORIBA Scientific and NKT Photonics Introduce the World’s First Commercial Integrated Supercontinuum Powered Spectrofluorometers... Read more
- Aqualog®, the only simultaneous absorbance and fluorescence system, measures CDOM (colored dissolved organic matter) in water 100 times faster than previous fluorescence methods...Read more
- World's First 100MHz Picosecond Diode Source With USB Interface and Plug-and-Play Interchangeable Heads ...Read more
Fluorescence Application Notes
Steady State Fluorescence
Quantum Dot Absorbance, Photoluminescence Spectra and Lifetimes
Protein A280 for Protein Concentration
UV-Vis-NIR Fluorescence Detection Wavelength Range from 250 nm to 1,100 nm
2 in 1 Fluorescence and Absorbance Spectrometer: How does it work?
Measuring PL Upconversion Spectra and Lifetimes of Lanthanide-Doped Nanoparticles
Insulin Structure and Stability Assessment
Fast & Non-invasive Determination of Skin State
Spectroscopic Analysis of Red Wines
EPA Stage 2 Disinfection Compliance with Aqualog
Recording fluorescence Quantum Yields
Comparing Spectrofluorometer Specifications
Liquid in situ Measurement using Fiber Optic Probe
Fluorescence from Highly Diluted and Sub-Picomolar Samples
Fluorescence on Small or Solid Samples
Photon Counting means sensitivity
Fluorescence Anisotropy Studies
Kinetic Fluorescence Determination of Vitamin B1
Fluorescence Spectroscopy and Water Quality
Characterizing Galvanizing Baths
Characterization of Tooth Decay
Food science: increasing Crop Yields
Non invasive in vivo determination of Sunscreen UVA Protection Factors
Fluorescent pigments in Living Coral
Sensitivity of the FluoroLog® and FluoroMax®
Near IR capability of the FluoroLog®
Low temperature Macro Photoluminescence and PLE
Fluorescence Spectra from Carbon Nanotubes
Photoluminescence Spectroscopy of Nanoparticles
Fluorescence Micromeasurements using Fiber-Optic Adapters for Microscopes
Detection of Explosives with Fluorescence
Using the FluoroMax® in the near-IR
Lifetime Fluorescence
Upconversion of Lanthanide-containing glasses using DD-980L excitation
Measurement of carrier lifetime in perovskite for solar cell applications
Photoluminescence Lifetimes in NIR
Effect of temperature on HSA structure inferred using time‐resolved room temperature phosphorescence
Monitoring whole leaf fluorescence using time‐resolved techniques
Stopped flow time‐resolved fluorescence study of serum albumin – curcuminoid binding
Dye‐protein binding monitored in a microlitre volume using time‐resolved
fluorescence
Elucidating local viscosity using fluorescence lifetime measurements
Visualising local viscosity using fluorescence lifetime microscopy
Visualising dental caries using fluorescence lifetime microscopy
The measurement of singlet oxygen lifetime sensitised using Rose Bengal
Rapid and efficient fluorescence decay acquisition
Polyoxometalate‐protein interactions monitored by time‐resolved luminescence
Investigating photocleavage using time‐resolved emission spectra
Time‐resolved fluorescence for monitoring food composition
Plasmon enhancement of protein fluorescence by silver nanostructures
Characterising lanthanides in glasses for optical applications
Time‐resolved luminescence of security inks from the UV to NIR
Time‐resolved fluorescence lifetime measurements
Time‐resolved fluorescence anisotropy
Förster resonance energy transfer (FRET)
Time‐resolved emission spectra / decay associated spectra
Configuring a time‐resolved system
Cyclodextrin enhanced room temperature phosphorescence
Fluorescence lifetimes: time-domain or frequency domain?
Phosphorescence lifetime measured using the Phosphorimeter
Time gated separation of Lanthanide Luminescence
Selective excitation of Tryptophan Fluorescence Decay in Proteins (Copyright 2005 American Institute of Physics. This article may be downloaded for personal use only. Any other use requires permission of the author and the American Institute of Physics. The article appeared in Applied Physics Letters 86, 261911 and may be found at: link.aip.org/link/)
Excitation of Fluorescence Decay using a 265 nm pulsed light-emitting diode: Evidence for Aqueous Phenylalanine Rotamers (Copyright 2006 American Institute of Physics. This article may be downloaded for personal use only. Any other use requires permission of the author and the American Institute of Physics. The article appeared in Applied Physics Letters 89, 063901 and may be found at: link.aip.org/link/)
Detecting Conformational Rotamers via TCSPC
Near IR-Photoluminescence of Quantum Dots
Nanophotonics with Fluorescence Instruments
Nanotechnology Fluorescence
Fluorescence Spectra from Carbon Nanotubes
Photoluminescence Spectroscopy of Nanoparticles
Nanophotonics with Fluorescence Instruments
Near-IR Photoluminescence of Quantum Dots
Better Signal-to-Noise Ratios for Carbon Nanotube Spectra
Measuring Silica Nanoparticles via Fluorescence Anisotropy
Better Data on Carbon Nanotubes with the NanoLog®
The NanoLog® Series: A New Generation of Performance
Biotechnology Fluorescence
Kinetic Fluorescence Determination of Vitamin B1
Fluorescent pigments in Living Coral
Fluorescence of Molecular Beacons
Fluorescence Anisotropy Studies
Detecting Conformational Rotamers via TCSPC
Determination of Sunscreen Protection Factors