Materials Research (Jan 2018)

Analysis of Styrene Polymerization Without Surfactant and N2 Gas in Cylindrical Flask.

  • Antony Ernesto dos Santos Silva,
  • Wagner Cirilo Rodrigues,
  • Walker de Lima Cordeiro,
  • Phabyanno Rodrigues Lima,
  • Jonas dos Santos Sousa,
  • Alan John Duarte de Freitas,
  • Johnnatan Duarte de Freitas,
  • Djalma de Albuquerque Barros Filho

DOI
https://doi.org/10.1590/1980-5373-mr-2016-1049
Journal volume & issue
Vol. 20, no. suppl 2
pp. 800 – 807

Abstract

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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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