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    Polyelectrolyte-Assisted Dispersions of Reduced Graphite Oxide Nanoplates in Water and Their Gas-Barrier Application

    Year: 2021

    Journal: ACS Appl. Mater. Interfaces, Volume 13, SEP 15, page 43301–43313

    Authors: Maddalena, Lorenza; Benselfelt, Tobias; Gomez, Julio; Hamedi, Mahiar Max; Fina, Alberto; Wagberg, Lars; Carosio, Federico

    Organizations: EU [696656]; Wallenberg Wood Science Center (WWSC)

    Keywords: water-dispersion of graphene; polyelectrolyte; rGO; gas barrier; layer-by-layer; single stagnation point adsorption re ectometry

    Dispersion of graphene and related materials in water is needed to enable sustainable processing of these 2D materials. In this work, we demonstrate the capability of branched polyethylenimine (BPEI) and polyacrylic acid (PAA) to stabilize reduced graphite oxide (rGO) dispersions in water. Atomic force microscopy colloidal probe measurements were carried out to investigate the interaction mechanisms between rGO and the polyelectrolytes (PEs). Our results show that for positive PEs, the interaction appears electrostatic, originating from the weak negative charge of graphene in water. For negative PEs, however, van der Waals forces may result in the formation of a PE shell on rGO. The PE-stabilized rGO dispersions were then used for the preparation of coatings to enhance gas barrier properties of polyethylene terephthalate films using the layer-by-layer self-assembly. Ten bilayers of rGO(BPEI)/rGO(PAA) resulted in coatings with excellent barrier properties as demonstrated by oxygen transmission rates below detection limits [<0.005 cm(3)/(m(2) day atm)]. The observed excellent performance is ascribed to both the high density of the deposited coating and its efficient stratification. These results can enable the design of highly efficient gas barrier solutions for demanding applications, including oxygen-sensitive pharmaceutical products or flexible electronic devices.
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