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Controlling the structure of semiconductor nanoparticles: surface, defects, and properties


Semiconductor nanomaterials study is extremely important for the scientific and technological innovation. Semiconductors fundamental and applied science have a high impact on our current way of life due to the new technologies available such as energy applications, sensors, light-emitting diode (LED), liquid crystal display (LCD), and electronics components, like transistors. Among semiconductor nanomaterials, such as nanoparticles called quantum dots (quantum dots - QD), arouse interest for their optical and electronic properties that can be controlled by their chemical composition, size and shape. While several methods of QD synthesis have already been reported in the literature, methods that allow structural control, both of crystallinity and of surface, still need to be studied anciently for future employees of these nanomaterials in innovative technologies. Mainly reflecting on electronic transport, a layer of organic material routinely present on the surface of the QD as a result of the surfactants used in the tuning makes it impossible to directly apply QD in electronics. Thus, this project aims to study the surface chemistry of different QDs with commercial interest in electronic devices (solar cells, transistors, LEDs, etc.) through the exchange of surfactants and inorganic ligands and the structural monitoring of QDs by advanced technicians from structural characterization. Aiming to obtain systems with the necessary characteristics for technological QD applications, this project seeks to initiate the application studies of the best nanomaterials seeking to improve the properties of electronic conduction. (AU)

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Scientific publications
(References retrieved automatically from Web of Science and SciELO through information on FAPESP grants and their corresponding numbers as mentioned in the publications by the authors)
VARDHAN MOGILI, NAGA VISHNU; VERISSIMO, NATHALIA CAROLINA; ABEYKOON, A. M. MILINDA; BOZIN, EMIL S.; BETTINI, JEFFERSON; LEITE, EDSON ROBERTO; SOUZA JUNIOR, JOAO BATISTA. Background optimization of powder electron diffraction for implementation of the e-PDF technique and study of the local structure of iron oxide nanocrystals. ACTA CRYSTALLOGRAPHICA A-FOUNDATION AND ADVANCES, v. 79, p. 15-pg., . (18/13243-2, 21/03321-9, 13/07296-2)

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