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Fluorescence Technical Notes
Steady State
- Sub-Picomolar Fluorescein
- Fluorescence on Small or Solid Samples
- Photon Counting means sensitivity
- Fluorescence Anisotropy Studies
- Kinetic Fluorescence Determination of Vitamin B1
- Screening and classifying Hazardous Waste Samples
- Characterizing Galvanizing Baths
- Flat Panel Displays
- Assessing UV Damage of Hair
- Characterization of Tooth Decay
- FluoroMax® Multiwavelength Capability
- 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®
- Singlet Oxygen measurement
- Comparing Spectrofluorometer Specifications
- Automated Sample Handling
- Recording fluorescence Quantum Yields
- Low temperature Macro Photoluminescence and PLE
- Fluorescence Spectra from Carbon Nanotubes
- Photoluminescence Spectroscopy of Nanoparticles
- Microscope Adapter
- Detection of Explosives with Fluorescence
- Using the FluoroMax® in the near-IR
- Photoluminescence of SWNTs
Lifetime
- Cyclodextrin enhanced room temperature phosphorescence
- Fluorescence lifetimes: time-domain or frequency domain?
- Phosphorescence lifetime measured using the SPEX® 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: http://link.aip.org/link/?apl/86/261911) - 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: http://link.aip.org/link/?apl/89/063901) - Detecting Conformational Rotamers via TCSPC
- Near IR-Photoluminescence of Quantum Dots
- Nanophotonics with Fluorescence Instruments
- MCS and Protein Phosphorescence
- Measuring Silica Nanoparticles via Fluorescence Anisotropy
Nanotechnology
- 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
Biotechnology
- Kinetic Fluorescence Determination of Vitamin B1
- FluoroMax® Multiwavelength Capability
- Fluorescent pigments in Living Coral
- Fluorescence of Molecular Beacons
- Fluorescence Anisotropy Studies
- Detecting Conformational Rotamers via TCSPC
- Determination of Sunscreen Protection Factors
- Fluorescence on Small and Solid Samples
- Endogenous Skin Fluorescence
- MCS and Protein Phosphorescence
