Técnico analista - estabilidades
San*** ***** (XX anos)
First Level Doctorate (Researcher) em Physics Department and CICECO-Aveiro Institute of Materials, University of Aveiro
Universities of Minho, Aveiro and Porto
Aveiro
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Experiência
First Level Doctorate (Researcher)
Physics Department and CICECO-Aveiro Institute of Materials, University of Aveiro
The tasks include laboratory management and coordination and synthesis, characterization and development of light emitting materials featuring application in photovoltaics, QR codes and light-emitting diodes.
Formação
Physics
Universities of Minho, Aveiro and Porto
2012
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2017
Ph.D. in Physics by the Universities of Minho, Aveiro and Porto (MAP-Fis doctoral programme), Portugal Thesis: Organic-inorganic hybrid materials for green photonics: luminescent solar concentrators (LSCs). The main goal was to fabricate LSCs based on optical fibers with different lengths, diameters and geometries. The LSCs are based on polymeric optical fibers (POFs) and optically active organic-inorganic hybrid materials. Primarily, commercial POFs were coated with the optically active material. Then, hollow fibers were produced and filled with the same material. The objective was being able to see how the LSC geometry influences the overall LSC performance.
Idiomas
English - Fluent
Informações Adicionais
Summary
PhD in Physics since 2017, working on academic environment (University of Aveiro) ever since on a top-rated laboratory. Specialized in optical characterization of light-emitting materials for photovoltaics, QR codes and light-emitting diodes, with 22 published papers (3 highlighted in journal covers) in the Materials, Optics and in Photovoltaics field. Highly experienced in the operation of several equipments and optical/electrical characterization techniques, such as: - UV-Visible-NIR absorption spectroscopy; - Steady-state and time-resolved photoluminescence as function of temperature; - Use of integrating spheres to measure luminous flux and emission quantum yield; - Refractive index measurements through spectroscopic ellipsometry, and data treatment through fitting to mathematical models (e.g. Lorentz oscillator, Cauchy, direct inversion); - Measurement of electrical parameters of photovoltaic devices (I-V and external quantum efficiency curves); - Estimation of optical and power conversion efficiency of photovoltaic devices.
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