Open AccessRemoval of hexavalent chromium from graphene oxide supported on a cellulose acetate and polyacrylic acid membrane
Author(s) -
J. A. Sánchez-Márquez,
Rosalba FuentesRamírez,
Zeferino GamiñoArroyo
Publication year - 2021
Publication title -
revista de tecnología e innovación
Language(s) - English
Resource type - Journals
ISSN - 2410-3993
DOI - 10.35429/jti.2021.22.8.1.8
Subject(s) - graphene , polyacrylic acid , hexavalent chromium , cellulose acetate , oxide , membrane , materials science , raman spectroscopy , graphite oxide , potentiometric titration , graphite , graphene oxide paper , inorganic chemistry , chemical engineering , phase inversion , nuclear chemistry , polymer , chromium , chemistry , nanotechnology , organic chemistry , composite material , metallurgy , ion , biochemistry , physics , engineering , optics
This work focused on the study of the hexavalent chromium removal process from graphene oxide supported on a cross-linked cellulose acetate and polyacrylic acid polymeric membrane. The membranes were synthesized by the phase inversion method and Graphene oxide was added in proportions of 1% by weight to the polymeric material. Graphene oxide was obtained from crystalline graphite (Electron Microscope Science, No. 70230). The graphite was oxidized using the improved method of Hummers. The characterization of polymer and graphene oxide was made by Raman spectroscopy. The surface charge and point of zero charge of the materials were evaluated using a potentiometric titration method proposed by Loskutov and Kuzin. The removal of Cr (VI) was studied as a function of contact time and of initial concentration of Cr (VI). The removal of Cr (VI) (~90%) mainly occurs in a contact time from 32 to 64 h when the initial concentration of Cr (VI) is 1 mg/L.