Tannic Acid-Functionalized MoS2 and g‑C3N4 Thin Film Lamellar Membranes for Improved Permeance and Rejection in Nanofiltration
Design of lamellar membranes using nanomaterials of different dimensions has gained importance as they offer combined and synergetic properties that can significantly enhance the permeance and rejection. Herein, we report the fabrication of a lamellar thin film composite of a polyamide composite mem...
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| Published in: | ACS applied nano materials Vol. 7; no. 9; pp. 10396 - 10407 |
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| Main Authors: | , , , |
| Format: | Journal Article |
| Language: | English |
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American Chemical Society
10-05-2024
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| Abstract | Design of lamellar membranes using nanomaterials of different dimensions has gained importance as they offer combined and synergetic properties that can significantly enhance the permeance and rejection. Herein, we report the fabrication of a lamellar thin film composite of a polyamide composite membrane via interfacial polymerization using 1T-molybdenum disulfide/graphitic carbon nitride (1T-MoS2/g-C3N4), synthesized by a one-pot solid state reaction. The developed nanofiller 1T-MoS2/g-C3N4 (MC) had unresolved issues, namely, low stability, agglomeration, low processability, and poor compatibility when incorporated into membranes. A sustainable approach to functionalize the MC surface with low-cost, stable, and ecologically friendly tannic acid (TA), a polyphenol derived from plants and rich in –OH functional groups, has significantly addressed the aforementioned issues. The hydrophilic nature and strong negative charge of TA produce a dense network on the membrane surface, inducing nanofiltration ability, in addition to offering efficient permeance. The optimal loading of this functionalized composite in the membrane resulted in an 18.4% NaCl rejection while achieving twice the permeance (17.7 L m–2 h–1 bar–1) compared to that of the non-TA-treated membranes. Divalent salts of sodium and magnesium sulfate show rejection up to 97 and 95%, respectively, while dye molecules of Congo red (696.7 Da) and methylene orange (327.3 Da) show >94% rejection, all with very good permeance. The robust and economical technique of one-pot synthesis of nanofillers together with easy functionalization rendered a very strong, tough, high antifouling thin film nanocomposite membrane that could practically be applied in desalination applications. |
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| AbstractList | Design of lamellar membranes using nanomaterials of different dimensions has gained importance as they offer combined and synergetic properties that can significantly enhance the permeance and rejection. Herein, we report the fabrication of a lamellar thin film composite of a polyamide composite membrane via interfacial polymerization using 1T-molybdenum disulfide/graphitic carbon nitride (1T-MoS2/g-C3N4), synthesized by a one-pot solid state reaction. The developed nanofiller 1T-MoS2/g-C3N4 (MC) had unresolved issues, namely, low stability, agglomeration, low processability, and poor compatibility when incorporated into membranes. A sustainable approach to functionalize the MC surface with low-cost, stable, and ecologically friendly tannic acid (TA), a polyphenol derived from plants and rich in –OH functional groups, has significantly addressed the aforementioned issues. The hydrophilic nature and strong negative charge of TA produce a dense network on the membrane surface, inducing nanofiltration ability, in addition to offering efficient permeance. The optimal loading of this functionalized composite in the membrane resulted in an 18.4% NaCl rejection while achieving twice the permeance (17.7 L m–2 h–1 bar–1) compared to that of the non-TA-treated membranes. Divalent salts of sodium and magnesium sulfate show rejection up to 97 and 95%, respectively, while dye molecules of Congo red (696.7 Da) and methylene orange (327.3 Da) show >94% rejection, all with very good permeance. The robust and economical technique of one-pot synthesis of nanofillers together with easy functionalization rendered a very strong, tough, high antifouling thin film nanocomposite membrane that could practically be applied in desalination applications. |
| Author | Padaki, Mahesh Balakrishna, R. Geetha Vinothkumar, Karthikeyarajan Kanagaraj, Venkatesh |
| AuthorAffiliation | Centre for Nano and Material Sciences |
| AuthorAffiliation_xml | – name: Centre for Nano and Material Sciences |
| Author_xml | – sequence: 1 givenname: Karthikeyarajan surname: Vinothkumar fullname: Vinothkumar, Karthikeyarajan – sequence: 2 givenname: Venkatesh surname: Kanagaraj fullname: Kanagaraj, Venkatesh – sequence: 3 givenname: Mahesh orcidid: 0000-0002-5784-9369 surname: Padaki fullname: Padaki, Mahesh email: sp.mahesh@jainuniversity.ac.in – sequence: 4 givenname: R. Geetha orcidid: 0000-0002-7247-4921 surname: Balakrishna fullname: Balakrishna, R. Geetha email: br.geetha@jainuniversity.ac.in |
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| Copyright | 2024 American Chemical Society |
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| DOI | 10.1021/acsanm.4c00790 |
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| Keywords | thin film membranes 1T-MoS2/g-C3N4 tannic acid salt and dye rejection wastewater treatment |
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| Snippet | Design of lamellar membranes using nanomaterials of different dimensions has gained importance as they offer combined and synergetic properties that can... |
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| Title | Tannic Acid-Functionalized MoS2 and g‑C3N4 Thin Film Lamellar Membranes for Improved Permeance and Rejection in Nanofiltration |
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