Analysis of Styrene Polymerization Without Surfactant and N2 Gas in Cylindrical Flask.
AUTOR(ES)
Silva, Antony Ernesto dos Santos, Rodrigues, Wagner Cirilo, Cordeiro, Walker de Lima, Lima, Phabyanno Rodrigues, Sousa, Jonas dos Santos, Freitas, Alan John Duarte de, Freitas, Johnnatan Duarte de, Barros Filho, Djalma de Albuquerque
FONTE
Mat. Res.
DATA DE PUBLICAÇÃO
22/01/2018
RESUMO
The conditions of chemical synthesis can be crucial for polymerization of styrene in such a way that it can be produced latex beads at nanometric range (ϕ < 400nm). In this work, it will be analyzed how the absence of N2 and surfactant will result in colloidal particles with high affinity to agglomerate forming two kinds of nanostructured assemblies: colloidal crystals and nanowires. Four syntheses were realized and four parameters were changed: temperature, impeller speed, and initiator and styrene concentrations. The dispersion was filtered and coated on glass slides by evaporation induced self-assembly (EISA) process. Morphology and topography were observed at Scanning Electron Microscopy (SEM) and Atomic Force Microscope (AFM) respectively. They show how the synthesis conditions play a vital a role on the formation of self assembly nanostructures that can be applied as templates for sensors and biomaterials devices.
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