Trabalho de Conclusão de Curso de Graduação
Desenvolvimento de um supercapacitor líquido nanoestruturado fotossensível
Fecha
2021-09-27Autor
Prado, André Luiz Ramos
Institución
Resumen
With the advances of nanotechnology, the increase in adepts to the use of small-scale devices
is growing considerably and can be observed in products marketed with information that
something was built on nanoscale, such as processors in notebooks and desktops with a
structure of 7 nanometers. Modern physics explains that as a particle size decreases, unicities
become interesting and can even define new properties in its nanostructure, whether electrical,
chemical or physical. The decrease in scale can consequently generate changes in the
constructive patterns of the macrostructure and may generate a new component. Based on the
study of the iron oxide nanoparticles (NPs), which have rising electrical properties and also
improvements in chemical reactions between atomic structures, it is promising in energy
storage and with photosensitive characteristics, which provides possibilities in the forms of
charge transfer. To store energy, the possible photonic interactions in the iron oxide
nanocomposite with an electrochemical supercapacitor (SC) format will be analyzed. The
analysis will be developed by a digital capacimeter integrated with a graphical platform for
quantitative analysis on the capacity of load storage due to storage density, having as constant
experimental temperature, humidity and electromagnetic incidence in the act of measurement
capacitance.