2020
DOI: 10.3390/ma13194431
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Effects of Temperature on the Morphology and Optical Properties of Spark Discharge Germanium Nanoparticles

Abstract: We report the spark discharge synthesis of aerosol germanium nanoparticles followed by sintering in a tube furnace at different temperatures varying from 25 to 800 °C. The size, structure, chemical composition and optical properties were studied. We have demonstrated a melting mechanism of nanoparticles agglomerates, the growth of the mean primary particle size from 7 to 51 nm and the reduction of the size of agglomerates with a temperature increase. According to transmission electron microscopy (TEM) and Four… Show more

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Cited by 13 publications
(6 citation statements)
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“…The morphology of generated agglomerates with subsequent sintering at 325 °C was similar to the initial agglomerates (see Supplementary Figure S1 ), but the average size of the primary nanoparticles increased to 11.3 ± 2.7 nm, which was connected to the partial melting of tiny nanoparticles in the furnace and the beginning of the morphology change process [ 59 , 60 ].…”
Section: Resultsmentioning
confidence: 96%
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“…The morphology of generated agglomerates with subsequent sintering at 325 °C was similar to the initial agglomerates (see Supplementary Figure S1 ), but the average size of the primary nanoparticles increased to 11.3 ± 2.7 nm, which was connected to the partial melting of tiny nanoparticles in the furnace and the beginning of the morphology change process [ 59 , 60 ].…”
Section: Resultsmentioning
confidence: 96%
“…They were reshaped in liquid form into a well-rounded drop and then further recrystallized into compact spherical crystal nanoparticles. The temperature of the complete reshaping of the agglomerates into spherical particles is a function of the primary particle diameter in the agglomerates and the thermal properties of the material of electrodes, and it is lower than the melting point of the appropriate bulk material, which has been demonstrated earlier in experiments with silver and germanium nanoparticles [ 59 , 66 ]. The TEM images represented in Figure 2 show a morphology change from fractal-like agglomerates to large individual particles with a wide range of diameters varying from 9 to 89 nm for a gap voltage of 1.5 kV and from 12 to 82 nm for 3 kV.…”
Section: Resultsmentioning
confidence: 99%
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“…In addition, the growth rate of NSs can vary significantly with growth temperature. At higher growth temperatures, the growth rate could be increased, leading to more complex NSs; this is because the mobility of atoms and molecules on the surface of the NS can be influenced by the temperature which in turn can affect the shape of the structure and would be a more compact structure …”
Section: Resultsmentioning
confidence: 99%
“…Aerosol metal nanoparticles produced in a gas discharge generator [ 35 , 36 ] can be used as a source for the formation of nanostructures. The implication of additional in-flow thermal [ 37 ] or the laser treatment [ 38 ] of aerosol nanoparticles leads to varied morphology, as well as optical properties, of nanoparticles which is extremely important for the fabrication of sensitive SERS and luminescence substrates to be applied. Beyond that, after SERS and MEF investigations, the nanostructures based on bare aerosol nanoparticles without any surfactants on their surfaces can be removed from a sample by a pure gas jet (without nanoparticles) passed through the nozzle for aerosol printing without damaging the painted layer.…”
Section: Introductionmentioning
confidence: 99%