Laminar Graphene Oxide Membranes Towards Selective Ionic and Molecular Separations: Challenges and Progress

Ali, Akbar; Aamir, Muhammad; Thebo, Khalid Hussain; Akhtar, Javeed

doi:10.1002/tcr.201900024

Cited by 69 publications

(35 citation statements)

References 77 publications

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“…Some 2D membranes tend to fail under high pressures, temperatures, or in aqueous solutions. [38] Most of the previous investigations occur at low pressures and temperatures to prevent the membranes from deteriorating. Moreover, smart 2D membranes may be exposed to acidic gases such as H 2 S/SO 2 / NO 2 in industrial cryogenic or aromatic recovery systems.…”

Section: Discussionmentioning

confidence: 99%

Smart Two‐Dimensional Membranes for Molecular Separations

2021

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Membrane-based separation technologies are gaining prominence in energy-efficient separation processes. Smart membranes, which change their physical or chemical characteristics in response to environmental stimuli, are attractive membrane candidates. This review summarizes the recent development and applications of smart membranes based on two-dimensional (2D) materials, mainly focusing on their design, fabrication, and applications in molecular separations. Furthermore, stimuli for triggering smart 2D membranes are classified and explained. Finally, we propose areas for improvement and further development for future studies, such as the issues of complicated fabrication, long term stability in real operating conditions, and responding to different environmental stimuli at the same time.

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Section: Discussionmentioning

confidence: 99%

Smart Two‐Dimensional Membranes for Molecular Separations

2021

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“…From these studies, it is clear that Mxene‐based membranes are mostly prepared through vacuum filtration assembly. Beside several advantages the vacuum filtration method requires large volumes of liquid, long duration, and is difficult to scale up 15. Therefore, the fabrication of large‐area, defect‐free, and pore‐size controlled Mxene‐based membranes is of most importance for large scale applications with superior separation performance.…”

Section: Fabrication Methods For Mxene‐based Membranesmentioning

confidence: 99%

“…Carbon nanotubes (CNTs) have been widely studied for NF applications with high separation efficiency due to their tunable microstructural properties, but unfortunately such membranes cannot gain more attention for large scale applications due to lower permeability and stability 5. Additionally, 2D materials such as graphene, GO, h‐BN, TMDCs, COFs, and MOFs have been widely investigated for water purification, desalination, gas separation, and pervaporation applications due to their exceptional properties 10–18. Among these, GO is considered as effective material for membrane technology and most efforts have been devoted to improve the separation efficiency and permeability along with stability 19.…”

Section: Introductionmentioning

confidence: 99%

Recent Advances in MXene‐based Separation Membranes

et al. 2021

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Two‐dimensional (2D) materials with unique atomic thickness are promising candidate for high performance separation membrane. Several 2D materials such as graphene, graphene oxide (GO), metal‐organic frameworks (MOFs), covalent frameworks (COFs), transition metal dichalcogenides (TMDCs), etc have been studied as a separation membrane due to their outstanding properties such as high mechanical strength, large surface area, good chemical and thermal stability, ease of functionalization, and hydrophilic surface. Recently, transition metal carbide also known as MXene, a new member of layered membrane family has attended significant interest in water purification, desalination, gas separation, and pervaporation. Herein, the most recent advances in 2D MXene‐based membranes from both experimental and computational aspects are reviewed. Emphasis is placed on materials' structures, properties, fabrication methods, and potential applications in membrane technology. Finally, this review closes with several recommendation and new directions in this research area.

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“…Many different production methods for small samples are proposed, for example. [73][74][75][76] Recent reviews on GO membranes 77,78 describe their fabrication methods such as vacuum/pressure ltration method, drop-cast, spin-coating, layer by layer (LBL) assembly. One of the most scalable methods is the shear alignment of discotic liquid crystals of GO.…”

Section: Graphene-based Framework (Stacked Multi-layer)mentioning

confidence: 99%