Highly Selective Vertically Aligned Nanopores in Sustainably Derived Polymer Membranes by Molecular Templating

Feng, Xunda; Kawabata, Kohsuke; Kaufman, Gilad; Elimelech, Menachem; Osuji, Chinedum O.

doi:10.1021/acsnano.7b00304

Cited by 87 publications

(99 citation statements)

References 63 publications

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“…[102] Forlyotropic columnar liquid crystals,alignment control of compound 20 using PDMS substrates or magnetic fields was reported by Osuji and co-workers (Figure 6a). [151][152][153] Fort he thinner films (< 5 mm), effects of the interface on the alignment of columnar structures are enough to form homeotropic aligned structures.F or the thicker films (> 5 mm), interaction between the aromatic rings and magnetic field control the orientation of columns.…”

Section: Separationmentioning

confidence: 99%

Functional Liquid Crystals towards the Next Generation of Materials

et al. 2018

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Since the discovery of the liquid-crystalline state in 1888, liquid crystal science has made great advances through fusion with various technologies and disciplines. Recently, new molecular design strategies and new self-assembled structures have been developed as a result of the progress made in synthetic procedures and characterization techniques. Since these liquid crystals exhibit new functions and properties derived from their nanostructures and alignment, a variety of new functions for liquid crystals, such as transport for energy applications, separation for environmental applications, chromism, sensing, electrooptical effects, actuation, and templating have been proposed. This Review presents recent advances of liquid crystals that should contribute to the next generation of materials.

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Section: Separationmentioning

confidence: 99%

Functional Liquid Crystals towards the Next Generation of Materials

et al. 2018

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“…According to MM2 force field energy minimization model calculation (in vacuum), the lateral dimensions of MB+, RB0, and OR− are rather similar, i.e., 1.1, 1.0, and 1.3 nm, respectively. [27] The permeability and selectivity of membranes can be investigated via two methods: concentration-driven diffusion [1,2,[5][6][7]28] and pressure-driven flow. We determined the retention and selectivity of the model molecules from pressuredriven flow of aqueous solutions containing single solutes and mixed solutes as it is more relevant to a realistic application compared to a diffusion cell experiment.…”

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confidence: 99%

Chemically Tailored Multifunctional Asymmetric Isoporous Triblock Terpolymer Membranes for Selective Transport

et al. 2020

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Membrane‐based separation of organic molecules with 1–2 nm lateral dimensions is a demanding but rather underdeveloped technology. The major challenge is to fabricate membranes having distinct nanochannels with desired functionality. Here, a bottom‐up strategy to produce such a membrane using a tailor‐made triblock terpolymer featuring miscible end blocks with two different functional groups is demonstrated. A scalable multifunctional integral asymmetric isoporous membrane is fabricated by the solvent evaporation‐induced self‐assembly of the block copolymer combined with nonsolvent‐induced phase separation. The membrane nanopores are readily functionalized using positively and negatively charged moieties by two straightforward gas–solid reactions. The pores of the post‐functionalized membranes act as target‐specific functional soft nanochannels due to swelling of the polyelectrolyte blocks in a hydrated state. The membranes show unprecedented separation selectivity of small molecules based on size and/or charge which demonstrates the potential of the proposed strategy to prepare next‐generation nanofiltration membranes.

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“…We are optimistic about the recent advances in nanoporous membrane fabrication technologies . For example, the utilization of self‐assembly block polymers has enabled us to prepare highly uniform and ordered nanoporous membrane with a pore size as small as 1 nm.…”

Section: Summary and Future Perspectivementioning

confidence: 99%

“…We are optimistic about the recent advances in nanoporous membrane fabrication technologies. [236][237][238][239][240][241][242][243] For example, the utilization of self-assembly block polymers has enabled us to prepare highly uniform and ordered nanoporous membrane with a pore size as small as 1 nm. These newly developed block polymer-based nanoporous membranes provide a narrower pore size distribution, higher porosity, tunable chemical and physical properties, with many other advanced functions, providing the field with new experimental tools and research opportunities in nanoporous membrane extrusion methods.…”

Section: Summary and Future Perspectivementioning

confidence: 99%

Nanomaterial Preparation by Extrusion through Nanoporous Membranes

Guo

Huang

Zhao

et al. 2018

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Template synthesis represents an important class of nanofabrication methods. Herein, recent advances in nanomaterial preparation by extrusion through nanoporous membranes that preserve the template membrane without sacrificing it, which is termed as "non-sacrificing template synthesis," are reviewed. First, the types of nanoporous membranes used in nanoporous membrane extrusion applications are introduced. Next, four common nanoporous membrane extrusion strategies: vesicle extrusion, membrane emulsification, precipitation extrusion, and biological membrane extrusion, are examined. These methods have been utilized to prepare a wide range of nanomaterials, including liposomes, emulsions, nanoparticles, nanofibers, and nanotubes. The principle and historical context of each specific technology are discussed, presenting prominent examples and evaluating their positive and negative features. Finally, the current challenges and future opportunities of nanoporous membrane extrusion methods are discussed.

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Highly Selective Vertically Aligned Nanopores in Sustainably Derived Polymer Membranes by Molecular Templating

Cited by 87 publications

References 63 publications

Functional Liquid Crystals towards the Next Generation of Materials

Functional Liquid Crystals towards the Next Generation of Materials

Chemically Tailored Multifunctional Asymmetric Isoporous Triblock Terpolymer Membranes for Selective Transport

Nanomaterial Preparation by Extrusion through Nanoporous Membranes

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