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HORIBA presents 2020 Young Fluorescence Investigator Award

HORIBA Scientific

Dr. Jelle Hendrix, Assistant Professor at the Biomedical Research Institute of Hasselt University in Belgium, was presented with this honor

7 Apr 2020
Cameron Smith-Craig
Cameron Smith-Craig
Pharma and Applied Sciences Editor

Industry news

HORIBA Scientific, industry leader in fluorescence spectroscopy systems, presented Dr. Jelle Hendrix, Assistant Professor at the Biomedical Research Institute of Hasselt University in Belgium, with the annual Young Fluorescence Investigator Award. The winner was selected by the Biological Fluorescence Subgroup of the Biophysical Society.

HORIBA Scientific has been the sole sponsor of this award since 1997. Along with the recognition, HORIBA presented a $1000 check to Dr. Hendrix, who presented a 20-minute talk on his research at the Biological Fluorescence Subgroup Meeting during the Biophysical Society Annual Meeting. His presentation was titled "Raster Image Correlation Spectroscopy.”

He received his Ph.D. in Biochemistry from KU Leuven in Belgium. His thesis title was “Confocal spectroscopy in living cells – Chromatin and protein interactions of HIV-1 integrase co-factor LEDGF/p75.” He completed postdocs under the supervision of Johan Hofkens at KU Leuven and Don C. Lamb at LMU Munich to specialize in single-molecule and time-resolved fluorescence, funded by the Research Foundation Flanders (FWO).

The Young Fluorescence Investigator Award is presented to a researcher who has been nominated by their peers for significant advancements and/or contributions in or using fluorescence methodologies. The candidate must be a Ph.D., and a pre-tenured faculty member or a junior level investigator working in the field of fluorescence.

“HORIBA is very proud to sponsor this prestigious award again this year, and Dr. Hendrix is an excellent choice as this year’s recipient,” said Cary Davies, Director of the Fluorescence group at HORIBA Scientific. Hendrix is the 25th researcher to win the Young Investigator Award since 1997.”

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Fluorescence SpectroscopyFluorometers and spectrofluorometers (also called fluorescence spectrometers) are used to measure the intensity and wavelength of fluorescent light emitted from a sample after excitation by illumination. Spectrofluorometers utilize monochromators to select the desired wavelengths, whereas filter fluorometers employ a set of filters. Spectrofluorometers for measuring steady-state fluorescence and lifetime fluorescence (or time-resolved fluorescence) are available, as well as fluorescence microscopes and microplate readers. Find the best fluorescence spectroscopy products in our peer-reviewed product directory: compare products, check customer reviews and receive pricing direct from manufacturers.Mass SpectrometryMass spectrometry (MS) is a powerful analytical technique used to identify and quantify molecules based on the mass-to-charge ratio of gas-phase ions. It provides detailed information about the structure, composition, and properties of compounds and is widely used across fields such as environmental monitoring, materials science, drug discovery and development, food and beverage testing, and wider chemical research. Key MS techniques include tandem mass spectrometry (MS/MS), liquid chromatography–mass spectrometry (LS-MS) and inductively coupled plasma (ICP-MS). Choosing from these wide range of techniques and technologies can be a daunting task, so keep up to date with scientific applications, performance expectations, and customer reviews here all in one place. Visit our product directory to receive quotes direct from the manufacturer. FluorescenceThe emission of fluorescence occurs when a photon of energy is supplied to a fluorescent chemical compound by an external source, causing it to become excited. Fluorescence can be detected and measured for different purposes using microplate readers, fluorescence microscopes, fluorescence scanners, and flow cytometers.Fluorescence MicroscopyFluorescence microscopy has become an essential tool in biology, as well as in materials science. The application of many fluorochromes has made it possible to identify cells and sub-microscopic cellular components with a high degree of specificity. Using multiple fluorescence labels, different probes can simultaneously identify several target molecules.SpectroscopySpectroscopy is a technique that analyzes the interaction of light with matter to study molecular properties, concentrations, and structural information. Widely used in chemical, pharmaceutical, and environmental analysis, spectroscopy offers insights into molecular composition and helps identify unknown compounds. It plays a key role in quality control, research, and diagnostics. Browse our peer-reviewed product directory to compare spectroscopy tools, read reviews, and get prices directly from manufacturers.Biomedical

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HORIBA presents 2020 Young Fluorescence Investigator Award