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The Combination of 2D Layered Graphene Oxide and 3D Porous Cellulose Heterogeneous Membranes for Nanofluidic Osmotic Power Generation

Pan Jia, Xinyi Du, Ruiqi Chen, Jinming Zhou, Marco Agostini, Jinhua Sun, Linhong Xiao

2021Molecules21 citationsDOIOpen Access PDF

Abstract

Salinity gradient energy, as a type of blue energy, is a promising sustainable energy source. Its energy conversion efficiency is significantly determined by the selective membranes. Recently, nanofluidic membrane made by two-dimensional (2D) nanomaterials (e.g., graphene) with densely packed nanochannels has been considered as a high-efficient membrane in the osmotic power generation research field. Herein, the graphene oxide-cellulose acetate (GO–CA) heterogeneous membrane was assembled by combining a porous CA membrane and a layered GO membrane; the combination of 2D nanochannels and 3D porous structures make it show high surface-charge-governed property and excellent ion transport stability, resulting in an efficient osmotic power harvesting. A power density of about 0.13 W/m2 is achieved for the sea–river mimicking system and up to 0.55 W/m2 at a 500-fold salinity gradient. With different functions, the CA and GO membranes served as ion storage layer and ion selection layer, respectively. The GO–CA heterogeneous membrane open a promising avenue for fabrication of porous and layered platform for wide potential applications, such as sustainable power generation, water purification, and seawater desalination.

Topics & Concepts

Osmotic powerMembraneGrapheneMaterials scienceChemical engineeringDesalinationReversed electrodialysisNanotechnologyPorosityOxideBacterial celluloseCellulose acetateThin-film composite membraneNanomaterialsCelluloseChemistryForward osmosisReverse osmosisComposite materialElectrodialysisBiochemistryEngineeringMetallurgyMembrane Separation TechnologiesSolar-Powered Water Purification MethodsNanopore and Nanochannel Transport Studies
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