Hydrophilicity and antifouling property of membrane materials from cellulose acetate/polyethersulfone in DMAc

•CA-PES ultrafiltration membranes were prepared successfully with DMAc as solvent.•The optimal composition of the blend solution was determined.•The incorporation of CA improved hydrophilicity and antifouling ability of membranes.•The addition of CA and PVP resulted in larger macrovoids and higher p...

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Published inInternational journal of biological macromolecules Vol. 91; pp. 143 - 150
Main Authors Sun, Zhonghua, Chen, Fushan
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 01.10.2016
Subjects
Acetamides - chemistry
Antifouling property
Biofouling - prevention & control
Cellulose - analogs & derivatives
Cellulose - chemistry
Cellulose acetate
Hydrophilicity
Hydrophobic and Hydrophilic Interactions
Mechanical Phenomena
Membranes, Artificial
Polyethersulfone
Polymers - chemistry
Sulfones - chemistry
Surface Properties
Ultrafiltration
Ultrafiltration membrane
Viscosity
Volatilization
Water - chemistry
Polyethersulfone
Hydrophilicity
Antifouling property
DMAc
PVP
FA
Cellulose acetate
Ultrafiltration membrane
CA
PWF
FD
PES
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Abstract •CA-PES ultrafiltration membranes were prepared successfully with DMAc as solvent.•The optimal composition of the blend solution was determined.•The incorporation of CA improved hydrophilicity and antifouling ability of membranes.•The addition of CA and PVP resulted in larger macrovoids and higher porosity.•CA-PES ultrafiltration membrane was determined to be a semi-compatible system. In this study, cellulose acetate (CA) was blended with polyethersulfone (PES) to endow the ultrafiltration membrane with the improved hydrophilicity and antifouling property by using N,N-dimethylacetamide (DMAc) as the solvent. The effects of blend composition and evaporation time on the mechanical strength and pure water flux were investigated. It was found that the optimal composition of the casting solution was: 18wt% (PES), 4wt% (Polyvinylpyrrolidone K30), 3wt% (CA) and 20s (Evaporation time). The characteristics of CA-PES blend membranes were investigated through the methods of contact angle goniometer, antifouling property, compatibility, thermo gravimetric analysis and SEM. The results showed that the hydrophilicity and antifouling property of CA-PES ultrafiltration membranes were enhanced in comparison with the pure PES membranes. The CA-PES membranes exhibited semi-compatibility and good thermal stability below 270°C. This study provided a potential industrial application prospect of CA-PES membranes prepared in DMAc.
AbstractList In this study, cellulose acetate (CA) was blended with polyethersulfone (PES) to endow the ultrafiltration membrane with the improved hydrophilicity and antifouling property by using N,N-dimethylacetamide (DMAc) as the solvent. The effects of blend composition and evaporation time on the mechanical strength and pure water flux were investigated. It was found that the optimal composition of the casting solution was: 18wt% (PES), 4wt% (Polyvinylpyrrolidone K30), 3wt% (CA) and 20s (Evaporation time). The characteristics of CA-PES blend membranes were investigated through the methods of contact angle goniometer, antifouling property, compatibility, thermo gravimetric analysis and SEM. The results showed that the hydrophilicity and antifouling property of CA-PES ultrafiltration membranes were enhanced in comparison with the pure PES membranes. The CA-PES membranes exhibited semi-compatibility and good thermal stability below 270°C. This study provided a potential industrial application prospect of CA-PES membranes prepared in DMAc.
•CA-PES ultrafiltration membranes were prepared successfully with DMAc as solvent.•The optimal composition of the blend solution was determined.•The incorporation of CA improved hydrophilicity and antifouling ability of membranes.•The addition of CA and PVP resulted in larger macrovoids and higher porosity.•CA-PES ultrafiltration membrane was determined to be a semi-compatible system. In this study, cellulose acetate (CA) was blended with polyethersulfone (PES) to endow the ultrafiltration membrane with the improved hydrophilicity and antifouling property by using N,N-dimethylacetamide (DMAc) as the solvent. The effects of blend composition and evaporation time on the mechanical strength and pure water flux were investigated. It was found that the optimal composition of the casting solution was: 18wt% (PES), 4wt% (Polyvinylpyrrolidone K30), 3wt% (CA) and 20s (Evaporation time). The characteristics of CA-PES blend membranes were investigated through the methods of contact angle goniometer, antifouling property, compatibility, thermo gravimetric analysis and SEM. The results showed that the hydrophilicity and antifouling property of CA-PES ultrafiltration membranes were enhanced in comparison with the pure PES membranes. The CA-PES membranes exhibited semi-compatibility and good thermal stability below 270°C. This study provided a potential industrial application prospect of CA-PES membranes prepared in DMAc.
Author Sun, Zhonghua
Chen, Fushan
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Keywords Polyethersulfone
Hydrophilicity
Antifouling property
DMAc
PVP
FA
Cellulose acetate
Ultrafiltration membrane
CA
PWF
FD
PES
Language English
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Snippet •CA-PES ultrafiltration membranes were prepared successfully with DMAc as solvent.•The optimal composition of the blend solution was determined.•The...
In this study, cellulose acetate (CA) was blended with polyethersulfone (PES) to endow the ultrafiltration membrane with the improved hydrophilicity and...
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pubmed
elsevier
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Index Database
Publisher
StartPage 143
SubjectTerms Acetamides - chemistry
Antifouling property
Biofouling - prevention & control
Cellulose - analogs & derivatives
Cellulose - chemistry
Cellulose acetate
Hydrophilicity
Hydrophobic and Hydrophilic Interactions
Mechanical Phenomena
Membranes, Artificial
Polyethersulfone
Polymers - chemistry
Sulfones - chemistry
Surface Properties
Ultrafiltration
Ultrafiltration membrane
Viscosity
Volatilization
Water - chemistry
Title Hydrophilicity and antifouling property of membrane materials from cellulose acetate/polyethersulfone in DMAc
URI https://dx.doi.org/10.1016/j.ijbiomac.2016.05.072
https://www.ncbi.nlm.nih.gov/pubmed/27211301
Volume 91
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