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Lumineszenzmethoden und funktionelle Chromophore erlangten in den letzten Jahren breite Anwendungen in den Material- und Lebenswissenschaften wie z.B. in der medizinischen Diagnostik, der Beleuchtungs- und Displaytechnologie, der Photovoltaik oder im Sicherheitsbereich für die Echtheitskodierung. Entscheidend für eine hohe Effizienz und Nachweisempfindlichkeit funktioneller Chromophore ist eine große Helligkeit bzw. Brillanz. Brillante Stoffe zeichnen sich durch eine hohe Absorption des anregenden Lichtes (messbar über den molaren Extinktionskoeffizienten) aus sowie durch eine effiziente Umwandlung des absorbierten Lichtes in Lumineszenzlicht bzw. durch eine große Photolumineszenzquantenausbeute aus. Die Bestimmung der Schlüsselgröße Fluoreszenzquantenausbeute erfolgt i.a. relativ zu einem Farbstoff bekannter Fluoreszenzquantenausbeute über einen Vergleich der absorptionsgewichteten integralen Fluoreszenzspektren von Probe und Standard. Hierfür werden Referenzmaterialien mit zertifizierten Fluoreszenzquantenausbeuten benötigt, die bislang nicht verfügbar sind. Im folgenden werden die laufenden Forschungsarbeiten an einer Serie an Fluoreszenzquantenausbeutestandard vorgestellt, die im Spektralbereich von 350 nm – 1050 nm emittieren. Diese Materialien können auch zur Überprüfung von Ulbrichtkugelmessplätzen eingesetzt werden.
Chemical admixtures like superplasticizers or stabilizing agents are of ever increasing importance for modern concrete technology. Although such admixtures have meanwhile become common practice in many applications of concrete technology, the understanding of these highly complex systems is still limited and the relevant parameters, which predominantly control the interaction between the superplasticizer and the cement components, have not been identified yet.
Optical methods have been successfully used for the analysis and monitoring of the interactions between a broad variety of nanoscale and molecular systems like nanoparticles of various chemical composition and different types of organic ligands or biomolecules. This encouraged us to assess the potential of these methods, and particularly reflectance and fluorescence measurements, for the study of the interactions that occur at the interface between particle or hydrate surfaces and the fluid phase at a very early stage of concrete formation. Special emphasis is dedicated to search for and identify differences between commonly used superplasticizers.
Here, we focus on hydration effects using commercial comb shape polycarboxylate ethers (PCEs) with different charge densities, which are known to allow a very low water/cement ratio (w/c of 0.20 or less) while maintaining good workability. Based upon changes of the intensity of the reflectance and fluorescence signal and spectral effects of a dye, acting as optical reporter, a model for the interactions of dye, PCE molecules and cement nanoparticles in the very first phase of cement hydration is derived
Photoluminescence techniques are amongst the most widely used Tools in the life sciences, with new and exciting applications in medical diagnostics and molecular Imaging continuously emerging. Advantages include their comparative ease of use, unique sensitivity, non-invasive character, and potential for Multiplexing, remote sensing, and miniaturization. General drawbacks are, however, signals, that contain unwanted wavelength- and polarization contributions from Instrument-dependent effects, which are also time-dependent due to aging of Instrument-components, and difficulties to measure absolute flourescence entensities. Moreover, scattering Systems require Special measurement geometries and the interest in new optical Reporters with Emission > 1000 nm strategies for reliable measurements in the second diagnostic for the comparison of material Performance and the rational designg of new flourophores with improved properties.
Here, we present strategies to versatile method-adaptable liquid and solid flourescence Standards for different flourescence paramters including traceable Instrument calibration procedures and the design of integrating spere setups for the absolute measurements of emission spectra and Quantum yields in the wavelength Region of 350 to 1600 nm. Examples are multi-Emitter glasses, spectral flourescence Standards, and quantum yield Standards for the UV/vis/NIR.