Copper-catalyzed FeOOH templated method for accelerated fabrication of ultraporous membranes used in microalgae dewatering

Porous materials including polymeric and inorganic membranes are important and widely used in various industries. Controlling the pore size and pore distribution in porous materials is the major focus in this field. In this study, a novel copper-catalyzed template dissolution approach using ferric o...

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Main Authors: Wong, K.C., Goh, P.S., Suzaimi, N.D., Ahmad, N.A., Lim, J.W., Ismail, A.F.
Format: Article
Published: 2023
Online Access:http://scholars.utp.edu.my/id/eprint/34137/
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85140778799&doi=10.1016%2fj.cej.2022.139827&partnerID=40&md5=f60e7df600f7058cf75376c891f84339
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spelling oai:scholars.utp.edu.my:341372023-01-04T02:46:00Z http://scholars.utp.edu.my/id/eprint/34137/ Copper-catalyzed FeOOH templated method for accelerated fabrication of ultraporous membranes used in microalgae dewatering Wong, K.C. Goh, P.S. Suzaimi, N.D. Ahmad, N.A. Lim, J.W. Ismail, A.F. Porous materials including polymeric and inorganic membranes are important and widely used in various industries. Controlling the pore size and pore distribution in porous materials is the major focus in this field. In this study, a novel copper-catalyzed template dissolution approach using ferric oxyhydroxide (FeOOH) as nano-templates was introduced for the preparation of ultraporous polymeric membrane. Compared to typically used acid dissolution method, this approach accelerated the removal of FeOOH by 30 folds. The reduction of ferric by copper into ferrous weakened the Fe-O bonds in FeOOH hence leading to fast dissolution of the nanomaterials. The effectiveness of copper-catalyzed FeOOH dissolution was affected by the concentration of acid and copper ions as well as the type of anions present in the dissolution solution. Membranes fabricated via FeOOH-templating approach were evaluated for microalgae dewatering application and showed 8�21 higher solution flux than their corresponded nanocomposite membrane. The enhancement was attributed to the elevation of membrane porosity by 1�4 and the creation of more interconnected pore system. The best membrane, M1.0 exhibited the highest porosity of 94 and achieved the best microalgae solution flux of 57.7 L·m�2·h�1. The outcomes of this study confirmed the viability of copper-catalyzed approached in accelerating the formation of ultraporous materials and demonstrated the potential of such materials in microalgae dewatering application. © 2022 Elsevier B.V. 2023 Article NonPeerReviewed Wong, K.C. and Goh, P.S. and Suzaimi, N.D. and Ahmad, N.A. and Lim, J.W. and Ismail, A.F. (2023) Copper-catalyzed FeOOH templated method for accelerated fabrication of ultraporous membranes used in microalgae dewatering. Chemical Engineering Journal, 453. https://www.scopus.com/inward/record.uri?eid=2-s2.0-85140778799&doi=10.1016%2fj.cej.2022.139827&partnerID=40&md5=f60e7df600f7058cf75376c891f84339 10.1016/j.cej.2022.139827 10.1016/j.cej.2022.139827 10.1016/j.cej.2022.139827
institution Universiti Teknologi Petronas
building UTP Resource Centre
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Petronas
content_source UTP Institutional Repository
url_provider http://eprints.utp.edu.my/
description Porous materials including polymeric and inorganic membranes are important and widely used in various industries. Controlling the pore size and pore distribution in porous materials is the major focus in this field. In this study, a novel copper-catalyzed template dissolution approach using ferric oxyhydroxide (FeOOH) as nano-templates was introduced for the preparation of ultraporous polymeric membrane. Compared to typically used acid dissolution method, this approach accelerated the removal of FeOOH by 30 folds. The reduction of ferric by copper into ferrous weakened the Fe-O bonds in FeOOH hence leading to fast dissolution of the nanomaterials. The effectiveness of copper-catalyzed FeOOH dissolution was affected by the concentration of acid and copper ions as well as the type of anions present in the dissolution solution. Membranes fabricated via FeOOH-templating approach were evaluated for microalgae dewatering application and showed 8�21 higher solution flux than their corresponded nanocomposite membrane. The enhancement was attributed to the elevation of membrane porosity by 1�4 and the creation of more interconnected pore system. The best membrane, M1.0 exhibited the highest porosity of 94 and achieved the best microalgae solution flux of 57.7 L·m�2·h�1. The outcomes of this study confirmed the viability of copper-catalyzed approached in accelerating the formation of ultraporous materials and demonstrated the potential of such materials in microalgae dewatering application. © 2022 Elsevier B.V.
format Article
author Wong, K.C.
Goh, P.S.
Suzaimi, N.D.
Ahmad, N.A.
Lim, J.W.
Ismail, A.F.
spellingShingle Wong, K.C.
Goh, P.S.
Suzaimi, N.D.
Ahmad, N.A.
Lim, J.W.
Ismail, A.F.
Copper-catalyzed FeOOH templated method for accelerated fabrication of ultraporous membranes used in microalgae dewatering
author_facet Wong, K.C.
Goh, P.S.
Suzaimi, N.D.
Ahmad, N.A.
Lim, J.W.
Ismail, A.F.
author_sort Wong, K.C.
title Copper-catalyzed FeOOH templated method for accelerated fabrication of ultraporous membranes used in microalgae dewatering
title_short Copper-catalyzed FeOOH templated method for accelerated fabrication of ultraporous membranes used in microalgae dewatering
title_full Copper-catalyzed FeOOH templated method for accelerated fabrication of ultraporous membranes used in microalgae dewatering
title_fullStr Copper-catalyzed FeOOH templated method for accelerated fabrication of ultraporous membranes used in microalgae dewatering
title_full_unstemmed Copper-catalyzed FeOOH templated method for accelerated fabrication of ultraporous membranes used in microalgae dewatering
title_sort copper-catalyzed feooh templated method for accelerated fabrication of ultraporous membranes used in microalgae dewatering
publishDate 2023
url http://scholars.utp.edu.my/id/eprint/34137/
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85140778799&doi=10.1016%2fj.cej.2022.139827&partnerID=40&md5=f60e7df600f7058cf75376c891f84339
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