Antimicrobial Hydrophilic Membrane Formed by Incorporation of Polymeric Surfactant and Patchouli Oil
Membrane properties are highly affected by the composition of the polymer solutions that make up the membrane material and their influence in the filtration performance on the separation or purification process. This paper studies the effects of the addition of pluronic (Plu) and patchouli oil (PO)...
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oai:doaj.org-article:9993757521b845e398208c84e6e459242021-11-25T18:47:49ZAntimicrobial Hydrophilic Membrane Formed by Incorporation of Polymeric Surfactant and Patchouli Oil10.3390/polym132238722073-4360https://doaj.org/article/9993757521b845e398208c84e6e459242021-11-01T00:00:00Zhttps://www.mdpi.com/2073-4360/13/22/3872https://doaj.org/toc/2073-4360Membrane properties are highly affected by the composition of the polymer solutions that make up the membrane material and their influence in the filtration performance on the separation or purification process. This paper studies the effects of the addition of pluronic (Plu) and patchouli oil (PO) in a polyethersulfone (PES) solution on the membrane morphology, membrane hydrophilicity, and filtration performance in the pesticide removal compound in the water sample. Three types of membranes with the composition of PES, PES + Plu, and PES + Plu + patchouli oil were prepared through a polymer phase inversion technique in an aqueous solvent. The resulting membranes were then analyzed and tested for their mechanical properties, hydrophilicity, antimicrobial properties, and filtration performance (cross-flow ultrafiltration). The results show that all of the prepared membranes could reject 75% of the pesticide. The modification of the PES membrane with Plu was shown to increase the overall pore size by altering the pore morphology of the pristine PES, which eventually increased the permeation flux of the ultrafiltration process. Furthermore, patchouli oil added antimicrobial properties, potentially minimizing the biofilm formation on the membrane surface.Nasrul ArahmanCut Meurah RosnellyDiki Sukma WindanaAfrillia FahrinaSilmina SilminaTeuku MaimunSri MulyatiUmi FathanahSri ApriliaMuhammad Roil BiladPoernomo GunawanWafiq Alni DzulhijjahNur HalimahMDPI AGarticlepolyethersulfonepluronicpatchoulipesticideblendingultrafiltrasiOrganic chemistryQD241-441ENPolymers, Vol 13, Iss 3872, p 3872 (2021) |
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polyethersulfone pluronic patchouli pesticide blending ultrafiltrasi Organic chemistry QD241-441 |
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polyethersulfone pluronic patchouli pesticide blending ultrafiltrasi Organic chemistry QD241-441 Nasrul Arahman Cut Meurah Rosnelly Diki Sukma Windana Afrillia Fahrina Silmina Silmina Teuku Maimun Sri Mulyati Umi Fathanah Sri Aprilia Muhammad Roil Bilad Poernomo Gunawan Wafiq Alni Dzulhijjah Nur Halimah Antimicrobial Hydrophilic Membrane Formed by Incorporation of Polymeric Surfactant and Patchouli Oil |
description |
Membrane properties are highly affected by the composition of the polymer solutions that make up the membrane material and their influence in the filtration performance on the separation or purification process. This paper studies the effects of the addition of pluronic (Plu) and patchouli oil (PO) in a polyethersulfone (PES) solution on the membrane morphology, membrane hydrophilicity, and filtration performance in the pesticide removal compound in the water sample. Three types of membranes with the composition of PES, PES + Plu, and PES + Plu + patchouli oil were prepared through a polymer phase inversion technique in an aqueous solvent. The resulting membranes were then analyzed and tested for their mechanical properties, hydrophilicity, antimicrobial properties, and filtration performance (cross-flow ultrafiltration). The results show that all of the prepared membranes could reject 75% of the pesticide. The modification of the PES membrane with Plu was shown to increase the overall pore size by altering the pore morphology of the pristine PES, which eventually increased the permeation flux of the ultrafiltration process. Furthermore, patchouli oil added antimicrobial properties, potentially minimizing the biofilm formation on the membrane surface. |
format |
article |
author |
Nasrul Arahman Cut Meurah Rosnelly Diki Sukma Windana Afrillia Fahrina Silmina Silmina Teuku Maimun Sri Mulyati Umi Fathanah Sri Aprilia Muhammad Roil Bilad Poernomo Gunawan Wafiq Alni Dzulhijjah Nur Halimah |
author_facet |
Nasrul Arahman Cut Meurah Rosnelly Diki Sukma Windana Afrillia Fahrina Silmina Silmina Teuku Maimun Sri Mulyati Umi Fathanah Sri Aprilia Muhammad Roil Bilad Poernomo Gunawan Wafiq Alni Dzulhijjah Nur Halimah |
author_sort |
Nasrul Arahman |
title |
Antimicrobial Hydrophilic Membrane Formed by Incorporation of Polymeric Surfactant and Patchouli Oil |
title_short |
Antimicrobial Hydrophilic Membrane Formed by Incorporation of Polymeric Surfactant and Patchouli Oil |
title_full |
Antimicrobial Hydrophilic Membrane Formed by Incorporation of Polymeric Surfactant and Patchouli Oil |
title_fullStr |
Antimicrobial Hydrophilic Membrane Formed by Incorporation of Polymeric Surfactant and Patchouli Oil |
title_full_unstemmed |
Antimicrobial Hydrophilic Membrane Formed by Incorporation of Polymeric Surfactant and Patchouli Oil |
title_sort |
antimicrobial hydrophilic membrane formed by incorporation of polymeric surfactant and patchouli oil |
publisher |
MDPI AG |
publishDate |
2021 |
url |
https://doaj.org/article/9993757521b845e398208c84e6e45924 |
work_keys_str_mv |
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1718410728748089344 |