Laser-Induced Breakdown Spectroscopy 2D Distribution Mapping of Nanoparticles

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Authors

NOVOTNÝ Karel NOVOTNÁ Marie HRDLIČKA Aleš KOPEL Pavel KAISER Jozef KIZEK René ADAM Vojtěch

Year of publication 2016
Type Conference abstract
MU Faculty or unit

Central European Institute of Technology

Citation
Description The technique described in this presentation allows detection of metal nanoparticles and quantum dots (QDs) injected on the silica gel spread on aluminum foil or filtration paper. The modified laser system UP-266 MACRO equipped with software controlled stages in x and y directions was used. The prepared substrates with injected nanoparticles were placed into a lab-made holder. Pulse energy was set to 10 mJ while plasma emission was collected and transported by means of a 3 m long optical fiber into the entrance of a monochromator (Jobin Yvon, TRIAX 320) and detected with the ICCD detector (Princeton, PI MAX 3). The raster covered 15 × 15 points with spacing 500 um while laser spot diameter was approximately 100 um. In double pulse configuration (DP LIBS) the second, re-heating laser system, that propagates beam parallel to the sample surface was used Q-Smart Nd:YAG laser at fundamental wavelength 1064 nm and energy 100 mJ per pulse. This laser was focused by 80 mm focal length glass lens to intersect the path of the first laser beam and finally to create a coincident spark about 0.5 mm above the sample surface. Both configurations were employed for investigation of different types of metal-based nanoparticles after injection of different volumes and different concentrations on to filtration paper and silica gel spread on aluminum foil. Special attention was paid to study of QDs containing CdS, CdTe, CdSe (or their combinations) stabilized with glutathione (GSH), cysteine (Cys), mercaptosuccinic acid (MSA) or aminoethanethiol. The feasibility of their 2D distribution mapping on the substrate by LIBS was examined in connection with the separation (or preconcentration) possibilities.
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