Graphene oxide (GO)
Effect of graphene oxide and fluorinated polymeric chains incorporated in a multilayered sol-gel nanocoating for the design of corrosion resistant and hydrophobic surfaces

Effect of graphene oxide and fluorinated polymeric chains incorporated in a multilayered sol-gel nanocoating for the design of corrosion resistant and hydrophobic surfaces

Applied Surface Science2017JUAN DEYO MAEZTU; PEDRO J. RIVERO; CARLOS BERLANGA; DAVID M. BASTIDAS; JOSÉ F. PALACIO; RAFAEL RODRÍGUEZHighlights • Implementation of multilayer nanostructures based on the sol-gel technology. • Study of the thickness and temperature for...

Controlling the surface chemistry of graphene oxide: Key towards efficient ZnO-GO photocatalysts

Controlling the surface chemistry of graphene oxide: Key towards efficient ZnO-GO photocatalysts

Catalysis Today2020SANDRA VÍCTOR-ROMÁN; ENRIQUE GARCÍA-BORDEJÉ; JAVIER HERNÁNDEZ-FERRER; JOSÉ M. GONZÁLEZ-DOMÍNGUEZ; ALEJANDRO ANSÓN-CASAOS; ADRIÁN M.T. SILVA; WOLFGANG K. MASER; ANA M. BENITO Highlights • Development of ZnO-GO hybrids for enhanced photocatalysis....

Influence of graphene oxide’s characteristics on the fabrication and performance of crosslinked nanofiltration membranes

Influence of graphene oxide’s characteristics on the fabrication and performance of crosslinked nanofiltration membranes

ScienceDirect - Journal of the Taiwan Institute of Chemical Engineers2021VEPIKA KANDJOU; ZORAIDA GONZÁLEZ; BEATRIZ ACEVEDO; JOSÉ  M. MUNUERA; JUAN I. PAREDES; SONIA MELENDI-ESPINAAbstract Graphene oxide (GO) is emerging as an excellent next generation material for...

THE USE OF P-PHENYLENEDIAMINE TO CONTROL GRAHENE OXIDE MEMBRANE PORE-GAP AND STABILITY FOR WATER PURIFICATION

THE USE OF P-PHENYLENEDIAMINE TO CONTROL GRAHENE OXIDE MEMBRANE PORE-GAP AND STABILITY FOR WATER PURIFICATION

Carbon 20182018VEPIKA KANDJOU; ANA MATILDE PEREZ-MAS; MIGUEL HERNAEZ; BEATRIZ ACEVEDO; ANDREW MAYES; SONIA MELENDI ESPINAIntroduction The augmenting and urgently impending water crisis calls in for the implementation and development of efficient strategic water...

Enhanced covalent p-phenylenediamine crosslinked graphene oxide membranes: towards superior contaminant removal from wastewaters and improved membrane reusability

Enhanced covalent p-phenylenediamine crosslinked graphene oxide membranes: towards superior contaminant removal from wastewaters and improved membrane reusability

Journal of Hazardous Materials2019VEPIKA KANDJOU; ANA M. PEREZ-MAS; B. ACEVEDO; M. HERNAEZ; ANDREW G. MAYES, SONIA MELENDI-ESPINA.Highlights  Dip coating and Layer-by-layer have been proven as effective deposition methods.  Uncrosslinked and PPD crosslinked GO...

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