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dc.contributor.authorRobinson-Enebeli, Stephen 17:24:15 (GMT) 17:24:15 (GMT)
dc.description.abstractNanotechnology is extending the frontiers of science and technology, mainly through the applications of engineered nanomaterials. For instance, metal nanoparticles have seen wide-spread applications in the fields of biomedicine, electronics, manufacturing and fabrication, and environmental remediation. Since the functionalities of nanoparticles are strongly size-dependent, there is a need for an accurate and streamlined diagnostic that meets the growing demand for engineered nanomaterials. Time-resolved laser-induced incandescence (TiRe-LII) is an in situ optical diagnostic technique that characterizes nanoparticle properties in the gas phase. In this technique, nanoparticles suspended in a gas are heated to incandescent temperatures with a laser and allowed to thermally equilibrate with the surrounding gas. The emitted incandescence are size-dependent and provide other information about the physical characteristics of the gas-phase nanoparticles. However, some anomalies have been reported in the literature, including excessive absorption and non-incandescent laser-induced emissions (LIE) that corrupt the TiRe-LII technique and introduce uncertainties to inferred results. In this work, some of the anomalies that originate from the laser-nanoparticle interactions are investigated using the TiRe-LII modelling framework by applying tools such as the fluence study, examining the trends in inferred quantities-of-interest (QoI) that are inferred from an improved spectroscopic and heat transfer submodel, and analyzing LII data from plasmonic nanoparticles. The results show that LIE affects the inference of QoI, and further analysis of LII data from plasmonic nanoparticles can shed light on laser-nanoparticle interactions during TiRe-LII.en
dc.publisherUniversity of Waterlooen
dc.subjectoptical characterizationen
dc.subjectheat transferen
dc.subjectlaser interactionen
dc.subjectDetector calibrationen
dc.titleInvestigating laser-nanoparticle interactions using time-resolved laser-induced incandescenceen
dc.typeMaster Thesisen
dc.pendingfalse and Mechatronics Engineeringen Engineering (Nanotechnology)en of Waterlooen
uws-etd.degreeMaster of Applied Scienceen
uws.contributor.advisorDaun, Kyle
uws.contributor.affiliation1Faculty of Engineeringen

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