High performance and antifouling vertically aligned carbon nanotube membrane for water purification

A vertically aligned carbon nanotube (VA CNT) membrane created from the successful fusion of nanotechnology and membrane technology has been stated to be a next generation membrane due to its fast water transport and antimicrobial properties. Although previous studies of the VA CNT membrane reported...

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Published inJournal of membrane science Vol. 460; pp. 171 - 177
Main Authors Baek, Youngbin, Kim, Cholin, Seo, Dong Kyun, Kim, Taewoo, Lee, Jeong Seok, Kim, Yong Hyup, Ahn, Kyung Hyun, Bae, Sang Seek, Lee, Sang Cheol, Lim, Jaelim, Lee, Kyunghyuk, Yoon, Jeyong
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 01.06.2014
Elsevier
Subjects
Antifouling
Antifouling property
Bacteria
Chemistry
Colloidal state and disperse state
Exact sciences and technology
Flux
General and physical chemistry
High water flux
Membranes
Rejection
Solvents
Transport
Ultrafiltration membrane
Vertically aligned carbon nanotube membrane
Water purification
Vertically aligned carbon nanotube membrane
High water flux
Water purification
Ultrafiltration membrane
Antifouling property
Water
Membrane separation
Purification
Ultrafiltration
Carbon nanotubes
Inorganic membrane
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Abstract A vertically aligned carbon nanotube (VA CNT) membrane created from the successful fusion of nanotechnology and membrane technology has been stated to be a next generation membrane due to its fast water transport and antimicrobial properties. Although previous studies of the VA CNT membrane reported the potential for fast water transport or desalination by molecular dynamics simulation, this study is the first to report on the feasibility of using the VA CNT membrane for water purification. The VA CNT membrane (4.8nm of pore diameter and 6.8×1010#/cm2 of pore density) was fabricated and its flux, rejection performance, and membrane biofouling tendency were evaluated in comparison to the commercial ultrafiltration (UF) membrane. The VA CNT membrane appeared to have a water flux approximately three times higher than the UF membrane and water transport approximately 70,000 times faster than conventional no-slip flow. This higher flux was peculiarly observed in water, the most hydrophilic solvent, while other solvents showed that permeate flux decreased with higher viscosity. The rejection property of the VA CNT membrane as examined by the MWCO measurement was similar to the commercial UF membrane. Additionally, the VA CNT membrane showed better biofouling resistance with approximately 15% less permeate flux reduction and 2log less bacterial attachment than the UF membrane. This study reports the high potential of the VA CNT membrane with antifouling property in the water purification process. •A vertically aligned (VA) carbon nanotube (CNT) membrane was fabricated.•The VA CNT membrane shows about three times higher water flux than the UF membrane.•The flux on the VA CNT membrane increases with increasing solvent hydrophilicity.•The rejection property of the VA CNT membrane was similar to the UF membrane.•The VA CNT membrane has better biofouling resistance than the UF membrane.
AbstractList A vertically aligned carbon nanotube (VA CNT) membrane created from the successful fusion of nanotechnology and membrane technology has been stated to be a next generation membrane due to its fast water transport and antimicrobial properties. Although previous studies of the VA CNT membrane reported the potential for fast water transport or desalination by molecular dynamics simulation, this study is the first to report on the feasibility of using the VA CNT membrane for water purification. The VA CNT membrane (4.8 nm of pore diameter and 6.810 super(10) #/cm super(2) of pore density) was fabricated and its flux, rejection performance, and membrane biofouling tendency were evaluated in comparison to the commercial ultrafiltration (UF) membrane. The VA CNT membrane appeared to have a water flux approximately three times higher than the UF membrane and water transport approximately 70,000 times faster than conventional no-slip flow. This higher flux was peculiarly observed in water, the most hydrophilic solvent, while other solvents showed that permeate flux decreased with higher viscosity. The rejection property of the VA CNT membrane as examined by the MWCO measurement was similar to the commercial UF membrane. Additionally, the VA CNT membrane showed better biofouling resistance with approximately 15% less permeate flux reduction and 2 log less bacterial attachment than the UF membrane. This study reports the high potential of the VA CNT membrane with antifouling property in the water purification process.
A vertically aligned carbon nanotube (VA CNT) membrane created from the successful fusion of nanotechnology and membrane technology has been stated to be a next generation membrane due to its fast water transport and antimicrobial properties. Although previous studies of the VA CNT membrane reported the potential for fast water transport or desalination by molecular dynamics simulation, this study is the first to report on the feasibility of using the VA CNT membrane for water purification. The VA CNT membrane (4.8nm of pore diameter and 6.8×1010#/cm2 of pore density) was fabricated and its flux, rejection performance, and membrane biofouling tendency were evaluated in comparison to the commercial ultrafiltration (UF) membrane. The VA CNT membrane appeared to have a water flux approximately three times higher than the UF membrane and water transport approximately 70,000 times faster than conventional no-slip flow. This higher flux was peculiarly observed in water, the most hydrophilic solvent, while other solvents showed that permeate flux decreased with higher viscosity. The rejection property of the VA CNT membrane as examined by the MWCO measurement was similar to the commercial UF membrane. Additionally, the VA CNT membrane showed better biofouling resistance with approximately 15% less permeate flux reduction and 2log less bacterial attachment than the UF membrane. This study reports the high potential of the VA CNT membrane with antifouling property in the water purification process. •A vertically aligned (VA) carbon nanotube (CNT) membrane was fabricated.•The VA CNT membrane shows about three times higher water flux than the UF membrane.•The flux on the VA CNT membrane increases with increasing solvent hydrophilicity.•The rejection property of the VA CNT membrane was similar to the UF membrane.•The VA CNT membrane has better biofouling resistance than the UF membrane.
Author Kim, Yong Hyup
Ahn, Kyung Hyun
Bae, Sang Seek
Lee, Sang Cheol
Seo, Dong Kyun
Lee, Kyunghyuk
Yoon, Jeyong
Baek, Youngbin
Kim, Taewoo
Lim, Jaelim
Kim, Cholin
Lee, Jeong Seok
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  surname: Kim
  fullname: Kim, Cholin
  organization: World Class University (WCU) Program of Chemical Convergence for Energy & Environment (C2E2), School of Chemical and Biological Engineering, Seoul National University, Institute of Chemical Processes (ICP), Daehak-dong, Gwanak-gu, Seoul 151-742, Republic of Korea
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  givenname: Dong Kyun
  surname: Seo
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  surname: Kim
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  givenname: Jeong Seok
  surname: Lee
  fullname: Lee, Jeong Seok
  organization: School of Mechanical and Aerospace Engineering, Seoul National University, Daehak-dong, Gwanak-gu, Seoul 151-742, Republic of Korea
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  givenname: Yong Hyup
  surname: Kim
  fullname: Kim, Yong Hyup
  organization: School of Mechanical and Aerospace Engineering, Seoul National University, Daehak-dong, Gwanak-gu, Seoul 151-742, Republic of Korea
– sequence: 7
  givenname: Kyung Hyun
  surname: Ahn
  fullname: Ahn, Kyung Hyun
  organization: School of Chemical and Biological Engineering, Seoul National University, Daehak-dong, Gwanak-gu, Seoul 151-742, Republic of Korea
– sequence: 8
  givenname: Sang Seek
  surname: Bae
  fullname: Bae, Sang Seek
  organization: Department of Water Supply Technology, Korea Water Resources Corporation (K-water), Daejeon 306-711, Republic of Korea
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  surname: Lee
  fullname: Lee, Sang Cheol
  organization: Department of Water Supply Technology, Korea Water Resources Corporation (K-water), Daejeon 306-711, Republic of Korea
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  givenname: Jaelim
  surname: Lim
  fullname: Lim, Jaelim
  organization: K-water (Korea Water Resources Corporation), Shintanjinro 560, Yeonchuk-dong, Daedeok-gu, Daejeon 306-711, Republic of Korea
– sequence: 11
  givenname: Kyunghyuk
  surname: Lee
  fullname: Lee, Kyunghyuk
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  givenname: Jeyong
  surname: Yoon
  fullname: Yoon, Jeyong
  organization: World Class University (WCU) Program of Chemical Convergence for Energy & Environment (C2E2), School of Chemical and Biological Engineering, Seoul National University, Institute of Chemical Processes (ICP), Daehak-dong, Gwanak-gu, Seoul 151-742, Republic of Korea
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Keywords Vertically aligned carbon nanotube membrane
High water flux
Water purification
Ultrafiltration membrane
Antifouling property
Water
Membrane separation
Purification
Ultrafiltration
Carbon nanotubes
Inorganic membrane
Language English
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Snippet A vertically aligned carbon nanotube (VA CNT) membrane created from the successful fusion of nanotechnology and membrane technology has been stated to be a...
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SubjectTerms Antifouling
Antifouling property
Bacteria
Chemistry
Colloidal state and disperse state
Exact sciences and technology
Flux
General and physical chemistry
High water flux
Membranes
Rejection
Solvents
Transport
Ultrafiltration membrane
Vertically aligned carbon nanotube membrane
Water purification
Title High performance and antifouling vertically aligned carbon nanotube membrane for water purification
URI https://dx.doi.org/10.1016/j.memsci.2014.02.042
https://search.proquest.com/docview/1551049763
https://search.proquest.com/docview/1642289285
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