Highly selective charge-guided ion transport through a hybrid membrane consisting of anionic graphene oxide and cationic hydroxide nanosheet superlattice units

Abstract: The development of graphene-based functional membranes with the ability to effectively filter and separate molecules or ions in solutions based on a simple criterion (for example, the size or charge of solutes) is crucial for various engineering-relevant applications, ranging from wastewater purification and reuse to chemical refinement. Here, we report a hybrid membrane consisting of anionic graphene oxide (GO) and cationic Co-Al (or Mg-Al) layered double hydroxide (LDH) nanosheet (NS) superlattice units for … Show more

“…To achieve this, two possible strategies are proposed here, both of which involve the fabrication of large-area lamellar membranes composed of overlapped and stacked 2D nanosheets through the well-established liquid-based membrane formation techniques ( e.g. vacuum-filtration, 57 , 58 drop-casting, 59 , 60 spin-coating, 61 , 62 dip-coating, 63 spraying, 64 layer-by-layer electrostatic assembly 65 , 66 and Langmuir–Blodgett 67 , 68 ), followed by exposing the fresh in-plane conduction channels through properly scrolling or stacking.…”

Recent progress on exploring exceptionally high and anisotropic H⁺/OH⁻ ion conduction in two-dimensional materials

“…To achieve this, two possible strategies are proposed here, both of which involve the fabrication of large-area lamellar membranes composed of overlapped and stacked 2D nanosheets through the well-established liquid-based membrane formation techniques ( e.g. vacuum-filtration, 57 , 58 drop-casting, 59 , 60 spin-coating, 61 , 62 dip-coating, 63 spraying, 64 layer-by-layer electrostatic assembly 65 , 66 and Langmuir–Blodgett 67 , 68 ), followed by exposing the fresh in-plane conduction channels through properly scrolling or stacking.…”

Recent progress on exploring exceptionally high and anisotropic H⁺/OH⁻ ion conduction in two-dimensional materials

“…Membrane technology, which has a high water recovery rate and is environmentally friendly, is a key process in water treatment. [1][2][3] Electrodialysis (ED) is a promising membrane process to recover high value substances from water streams. ED is operated with a series of alternating cation-exchange and anionexchange membranes arranged between a cathode and anode, 4 leading to the recovery of valuable substances from industrial wastewater and brackish water.…”

A novel nanofiltration membrane inspired by an asymmetric porous membrane for selective fractionation of monovalent anions in electrodialysis

“…16,18,19 Therefore, to enhance their stability in aqueous systems, laminar GO membranes need to be modied by processes such as chemical cross-linking, [20][21][22] partial reduction 23,24 and intercalation. 25 As an emerging membrane technology, forward osmosis (FO) has attracted much attention because of its wonderful advantages over other traditional membrane separation techniques, including low energy consumption, 26 low membrane fouling [27][28][29] and low equipment requirement, and so on. Nevertheless, the application of FO technique still suffers from some problems, especially, internal concentration polarization (ICP), 26 which stems from the bilayer structure of FO membrane, thin selective layer and porous supporting layer.…”

“…23 Sun et al prepared a freestanding hybrid membrane consisting of anionic GO, cationic Co-Al (or Mg-Al) layered double hydroxide (LDH) that exhibited robust mechanical strength, and a highly selective charge-guided ion transport in concentration gradientdriven systems. 25 In this work, we report a facile strategy to prepare thin freestanding graphene-based laminar membrane through thermally-induced chemical cross-linking process, named as freestanding crosslinked GO (F-CGO) membranes. The sensitivity of water to the inter-laminar distance of the F-CGO membranes was evaluated by X-ray diffraction (XRD), and terahertz time-domain spectroscopy (THz-TDS).…”

Preparation of freestanding graphene-based laminar membrane for clean-water intake via forward osmosis process