Covalent organic framework membranes through a mixed-dimensional assembly for molecular separations

Yang, Hao; Yang, Long; Wang, Hongjian; Xu, Ziang; Zhao, Yumeng; Luo, Yi; Nasir, Nayab; Song, Yimeng; Wu, Hong; Pan, Fusheng; Jiang, Zhongyi

doi:10.1038/s41467-019-10157-5

Cited by 295 publications

(176 citation statements)

References 71 publications

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“…[255] To promote the sieving effects and mechanical strength of COF membranes, 1D cellulose nanofibers (CNFs) were integrated into the membrane (Figure 12c). [247] The pore size (0.45-1.0 nm) that rendered membrane precise molecular sieving ability was obtained. Owing to the hydrogen-bonded parallel chains and abundant hydroxyl groups, the nanocomposites exhibited elevated membrane stability.…”

Section: Desalinationmentioning

confidence: 93%

Emerging Functional Porous Polymeric and Carbonaceous Materials for Environmental Treatment and Energy Storage

Zheng

Lin

Zhang

et al. 2019

Adv Funct Materials

187

118

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The demand for practical and cost-effective environmental treatment and energy storage materials is exploding. Porous polymeric and carbonaceous materials have attracted tremendous interest on account of their welldeveloped porosity and tunable surface chemistry. Functionalization of pore structures further enhances their properties for environmental treatment and energy storage. Herein, the procedures for functionalization of porous structures are introduced, including predesign and postsynthetic strategies. Subsequently, the important advancements of emerging porous polymers for environmental treatment in sorption (e.g., organic micropollutant adsorption, heavy metal ion removal, radionuclide extraction, and oil absorption) and membrane separation (e.g., aqueous micropollutant separation, organic solvent nanofiltration, desalination and pervaporation), as well as for energy storage ranging from the electrodes and separators of batteries to supercapacitor electrodes are highlighted. Moreover, given the combined merits of high intrinsic conductivity, porosity, and physicochemical stability, novel polymer-based porous carbons for energy storage are also highlighted. Key functionalization chemistry for each application is discussed and an in-depth understanding of the structure-property relationships of these functional porous materials is provided. Finally, the challenges and perspectives of emerging functional porous polymeric and carbonaceous materials for environmental treatment and energy storage are proposed.

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Section: Desalinationmentioning

confidence: 93%

Emerging Functional Porous Polymeric and Carbonaceous Materials for Environmental Treatment and Energy Storage

Zheng

Lin

Zhang

et al. 2019

Adv Funct Materials

187

118

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show abstract

“…However, since Yaghi's landmark paper in 2005, research in this field had been mainly focused on the design and synthesis of new COF structures intending to increase the surface area and pore volume . For this reason, more recent studies concerning COF applications have become an active area of research in organic chemistry …”

Section: Introductionmentioning

confidence: 99%

Design, Synthesis and Characterization of Nickel‐Functionalized Covalent Organic Framework NiCl@RIO‐12 for Heterogeneous Suzuki–Miyaura Catalysis

Maia

Berg

Ritleng

et al. 2020

Chemistry A European J

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As eries of nickel-decorated covalento rganic frameworks, NiCl@RIO-12, were prepared using the post-synthetic modification strategy,t hat is, by reactingN iCl 2 with pristine RIO-12 under alkaline conditions. Interestingly,t hey retained their crystallinity andt he amount of nickel incorporated could be tuned from 3.6 to 25 wt %a ccording to the reaction conditions. The incorporation of ah igher amount of nickel in NiCl@RIO-12 consistently led to al ower Brunauer-Emmett-Teller surfacea rea. Additionally,n oa gglomeration of nickel particles was found and ar elativelyh omogeneous dispersion of nickel could be ascertained by SEM and TEM-EDS. The paramagnetic material exhibited promising catalytic activity in Suzuki-Miyaura cross-couplingu nder microwave heating. Thus,N iCl@RIO-12 notably demonstrated good thermal stability and its recyclability showed no substantial loss of activity after 3cycles.

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“…However, as far as size-dependent separation with COF membrane is concerned, it has been proved to be very difficult to accurately control the pore sizes in the sub-nm scale, either through control of monomer size or through pore modification [6][7][8] . Recently, Yang et al 35 reported several COF membranes with sub-nm pores prepared by vacuum filtration using 2D COF nanosheets and 1D cellulose nanofibers (CNFs) as starting materials. Due to the shielding effect of CNFs, the aperture of obtained COF-based membrane is in the range of 0.45-1.0 nm.…”

mentioning

confidence: 99%

Laminated self-standing covalent organic framework membrane with uniformly distributed subnanopores for ionic and molecular sieving

et al. 2020

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The preparation of subnanoporous covalent-organic-framework (COF) membranes with high performance for ion/molecule sieving still remains a great challenge. In addition to the difficulties in fabricating large-area COF membranes, the main reason is that the pore size of 2D COFs is much larger than that of most gas molecules and/or ions. It is urgently required to further narrow their pore sizes to meet different separation demands. Herein, we report a simple and scalable way to grow large-area, pliable, free-standing COF membranes via a onestep route at organic-organic interface. The pore sizes of the membranes can be adjusted from >1 nm to sub-nm scale by changing the stacking mode of COF layers from AA to AB stacking. The obtained AB stacking COF membrane composed of highly-ordered nanoflakes is demonstrated to have narrow aperture (∼0.6 nm), uniform pore distribution and shows good potential in organic solvent nanofiltration, water treatment and gas separation.

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Covalent organic framework membranes through a mixed-dimensional assembly for molecular separations

Cited by 295 publications

References 71 publications

Emerging Functional Porous Polymeric and Carbonaceous Materials for Environmental Treatment and Energy Storage

Emerging Functional Porous Polymeric and Carbonaceous Materials for Environmental Treatment and Energy Storage

Design, Synthesis and Characterization of Nickel‐Functionalized Covalent Organic Framework NiCl@RIO‐12 for Heterogeneous Suzuki–Miyaura Catalysis

Laminated self-standing covalent organic framework membrane with uniformly distributed subnanopores for ionic and molecular sieving

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