Carboxyl-functionalized covalent organic framework as a two-dimensional nanofiller for mixed-matrix ultrafiltration membranes

A new carboxyl-functionalized covalent organic framework (referred to as COF hereafter, unless otherwise noted) contains aromatic backbones and carboxyl-functionalized nanopores has been synthesized and used as a two-dimensional (2D) nanofiller in polyacrylonitrile (PAN) polymer matrix of ultrafiltr...

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Published inJournal of membrane science Vol. 574; pp. 338 - 348
Main Authors Duong, Phuoc H.H., Kuehl, Valerie A., Mastorovich, Bruce, Hoberg, John O., Parkinson, Bruce A., Li-Oakey, Katie D.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.03.2019
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Abstract A new carboxyl-functionalized covalent organic framework (referred to as COF hereafter, unless otherwise noted) contains aromatic backbones and carboxyl-functionalized nanopores has been synthesized and used as a two-dimensional (2D) nanofiller in polyacrylonitrile (PAN) polymer matrix of ultrafiltration (UF) membranes. A series of mixed-matrix UF membranes with various concentrations COF ranging from 0 to 0.8 wt% have been investigated using non-solvent induced phase separation (NIPS) method. The effect of COF concentration has been evaluated on the membrane morphology, intrinsic and mechanical properties, separation performance, and fouling propensity. Increasing COF concentration from 0 to 0.8 wt% could significantly enhance the rejection rate from 3.5 to 81.9 wt% for bovine serum albumin (BSA) and 65.0–99.4 wt% for γ-globulin. Moreover, membrane hydrophilicity greatly increased, with the decrease of water contact angle from 64.4° to 45.3°. Overall, compared to the pristine PAN membrane, the mixed-matrix PAN membrane with 0.8 wt% COF demonstrated high water flux of 940 L m−2 h−1 bar−1, better protein retention rate, thermal stability, mechanical properties, and fouling resistance. •A new 2D COF was synthesized with carboxylated nanopores.•Mixed-matrix COF/PAN UF membranes were fabricated using non-solvent induced phase separation method.•The COF/PAN membranes showed rejection rate of BSA (81.9%) and γ-globulin (99.4%) along with excellent water permeance (940 L m2 h−1 bar−1).•Only 1.8% BSA was adsorbed on COF/PAN membrane with merely 0.8% COF as fillers, compared to 100% of BSA adsorption on pristine PAN membranes.•The COF/PAN membranes showed significantly enhanced thermal stability and mechanical properties. [Display omitted]
AbstractList A new carboxyl-functionalized covalent organic framework (referred to as COF hereafter, unless otherwise noted) contains aromatic backbones and carboxyl-functionalized nanopores has been synthesized and used as a two-dimensional (2D) nanofiller in polyacrylonitrile (PAN) polymer matrix of ultrafiltration (UF) membranes. A series of mixed-matrix UF membranes with various concentrations COF ranging from 0 to 0.8 wt% have been investigated using non-solvent induced phase separation (NIPS) method. The effect of COF concentration has been evaluated on the membrane morphology, intrinsic and mechanical properties, separation performance, and fouling propensity. Increasing COF concentration from 0 to 0.8 wt% could significantly enhance the rejection rate from 3.5 to 81.9 wt% for bovine serum albumin (BSA) and 65.0–99.4 wt% for γ-globulin. Moreover, membrane hydrophilicity greatly increased, with the decrease of water contact angle from 64.4° to 45.3°. Overall, compared to the pristine PAN membrane, the mixed-matrix PAN membrane with 0.8 wt% COF demonstrated high water flux of 940 L m−2 h−1 bar−1, better protein retention rate, thermal stability, mechanical properties, and fouling resistance. •A new 2D COF was synthesized with carboxylated nanopores.•Mixed-matrix COF/PAN UF membranes were fabricated using non-solvent induced phase separation method.•The COF/PAN membranes showed rejection rate of BSA (81.9%) and γ-globulin (99.4%) along with excellent water permeance (940 L m2 h−1 bar−1).•Only 1.8% BSA was adsorbed on COF/PAN membrane with merely 0.8% COF as fillers, compared to 100% of BSA adsorption on pristine PAN membranes.•The COF/PAN membranes showed significantly enhanced thermal stability and mechanical properties. [Display omitted]
Author Parkinson, Bruce A.
Li-Oakey, Katie D.
Kuehl, Valerie A.
Mastorovich, Bruce
Duong, Phuoc H.H.
Hoberg, John O.
Author_xml – sequence: 1
  givenname: Phuoc H.H.
  surname: Duong
  fullname: Duong, Phuoc H.H.
  organization: Department of Chemical Engineering, University of Wyoming, 1000 E University Avenue, Laramie, WY 82071, United States
– sequence: 2
  givenname: Valerie A.
  surname: Kuehl
  fullname: Kuehl, Valerie A.
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  givenname: Bruce
  surname: Mastorovich
  fullname: Mastorovich, Bruce
  organization: Department of Chemistry, University of Wyoming, 1000 E University Avenue, Laramie, WY 82071, United States
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  givenname: John O.
  surname: Hoberg
  fullname: Hoberg, John O.
  organization: Department of Chemistry, University of Wyoming, 1000 E University Avenue, Laramie, WY 82071, United States
– sequence: 5
  givenname: Bruce A.
  surname: Parkinson
  fullname: Parkinson, Bruce A.
  organization: Department of Chemistry, University of Wyoming, 1000 E University Avenue, Laramie, WY 82071, United States
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  givenname: Katie D.
  surname: Li-Oakey
  fullname: Li-Oakey, Katie D.
  email: dli1@uwyo.edu
  organization: Department of Chemical Engineering, University of Wyoming, 1000 E University Avenue, Laramie, WY 82071, United States
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Title Carboxyl-functionalized covalent organic framework as a two-dimensional nanofiller for mixed-matrix ultrafiltration membranes
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