Open‐Pore Two‐Dimensional MFI Zeolite Nanosheets for the Fabrication of Hydrocarbon‐Isomer‐Selective Membranes on Porous Polymer Supports

Zhang, Han; Xiao, Qiang; Guo, Xianghai; Li, Najun; Kumar, Prashant; Rangnekar, Neel; Jeon, Mi Young; Al‐Thabaiti, Shaeel Ahmed; Narasimharao, Katabathini; Basahel, Sulaiman N.; Topuz, Berna; Onorato, Frank J.; Macosko, Christopher W.; Mkhoyan, K. Andre; Tsapatsis, Michael

doi:10.1002/anie.201601135

Cited by 104 publications

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References 29 publications

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“…The first report on a nanosheet‐based highly‐selective separation membrane used secondary growth of nanosheet seed layers, which were prepared by exfoliation of layered MFI using melt‐blending, and deposited using filtration. Following this demonstration, improvements in exfoliation and gel‐free secondary growth led to better separation performances, while the discovery of non‐thermal de‐templation by piranha treatment allowed selective membrane formation on porous polymer supports . Similar approaches have been developed in parallel for graphene oxide and MOF‐based membranes with promising separation performances.…”

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confidence: 96%

para‐Xylene Ultra‐selective Zeolite MFI Membranes Fabricated from Nanosheet Monolayers at the Air–Water Interface

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Section: Figurementioning

confidence: 96%

para‐Xylene Ultra‐selective Zeolite MFI Membranes Fabricated from Nanosheet Monolayers at the Air–Water Interface

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“…[2] Microporous membranes,r epresented by zeolite membranes,c an realize excellent separation performances owing to their sieving characteristic based on the pores.Nevertheless,the thickness of these inorganic microporous membranes is generally on the micrometer scale to reduce non-selective defects,w ith lower flux as ap enalty.R ecently,agreat deal of twodimensional (2D) materials have been considered as asuperb building platform for the next generation of separation membranes due to the ideal molecular-unit thickness and the extreme low mass-transfer barrier, [3,4] such as graphene oxide, [5] layered transition-metal dichalcogenides, [6] layered double hydroxides, [7] and 2D zeolite nanosheets. [8] These nanosheets can be assembled layer-by-layer to form selective membranes.G as molecules would pass through the mem-branes via the micropores of the nanosheets or the welldefined interlayer space,hence achieving high gas separation efficiency.…”

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Two‐Dimensional Metal–Organic Framework Nanosheets for Membrane‐Based Gas Separation

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Metal-organic framework (MOF) nanosheets could serve as ideal building blocks of molecular sieve membranes owing to their structural diversity and minimized mass-transfer barrier. To date, discovery of appropriate MOF nanosheets and facile fabrication of high performance MOF nanosheet-based membranes remain as great challenges. A modified soft-physical exfoliation method was used to disintegrate a lamellar amphiprotic MOF into nanosheets with a high aspect ratio. Consequently sub-10 nm-thick ultrathin membranes were successfully prepared, and these demonstrated a remarkable H /CO separation performance, with a separation factor of up to 166 and H permeance of up to 8×10 mol m s Pa at elevated testing temperatures owing to a well-defined size-exclusion effect. This nanosheet-based membrane holds great promise as the next generation of ultrapermeable gas separation membrane.

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“…[16,17] Thef irst report on an anosheet-based highly-selective separation membrane [18] used secondary growth of nanosheet seed layers,w hich were prepared by exfoliation of layered MFI [19] using melt-blending, [20] and deposited using filtration. [24] Similar approaches have been developed in parallel for graphene oxide [25] and MOF-based membranes [26,27] with promising separation performances.R ecently,i tw as demonstrated that zeolite nanosheets can be prepared by direct (bottom-up) synthesis,t hat is,without the need of exfoliation. [24] Similar approaches have been developed in parallel for graphene oxide [25] and MOF-based membranes [26,27] with promising separation performances.R ecently,i tw as demonstrated that zeolite nanosheets can be prepared by direct (bottom-up) synthesis,t hat is,without the need of exfoliation.…”

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para‐Xylene Ultra‐selective Zeolite MFI Membranes Fabricated from Nanosheet Monolayers at the Air–Water Interface

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The control of membrane morphology and microstructure is crucial to improve the separation performance of molecular-sieve membranes. This can be enabled by making thin, dense, and uniform seed-crystal coatings, which are then intergrown into continuous membranes. Herein, we show a novel and simple floating particle coating method can give closely packed monolayers of zeolite nanosheets on nonporous or porous supports. The zeolite nanosheet monolayer is formed at the air-water interface in a conical Teflon trough. As the water in the trough is drained, the monolayer is deposited on a support placed below. Membranes prepared by gel-free secondary growth of the nanosheets deposited by this method show unprecedented ultra-selective performance for separation of para- from ortho-xylene (separation factor >10 000).

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Open‐Pore Two‐Dimensional MFI Zeolite Nanosheets for the Fabrication of Hydrocarbon‐Isomer‐Selective Membranes on Porous Polymer Supports

Cited by 104 publications

References 29 publications

para‐Xylene Ultra‐selective Zeolite MFI Membranes Fabricated from Nanosheet Monolayers at the Air–Water Interface

para‐Xylene Ultra‐selective Zeolite MFI Membranes Fabricated from Nanosheet Monolayers at the Air–Water Interface

Two‐Dimensional Metal–Organic Framework Nanosheets for Membrane‐Based Gas Separation

para‐Xylene Ultra‐selective Zeolite MFI Membranes Fabricated from Nanosheet Monolayers at the Air–Water Interface

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