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Racemic and enantiomeric effect of tartaric acid on the hydrophilicity of polysulfone membrane
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  • Journal title : Membrane Water Treatment
  • Volume 7, Issue 3,  2016, pp.257-275
  • Publisher : Techno-Press
  • DOI : 10.12989/mwt.2016.7.3.257
 Title & Authors
Racemic and enantiomeric effect of tartaric acid on the hydrophilicity of polysulfone membrane
Sharma, Nilay; Purkait, Mihir Kumar;
 Abstract
The enantiomeric and racemic effects of tartaric acid (TA) on the properties of polysulfone (PSn) ultrafiltration membranes were studied in terms of morphology and hydrophilicity (HPCT) of membrane. Asymmetric membranes were prepared by direct blending of polyvinyl pyrrolidone (PVP) with D-TA and DL-TA in membrane casting solution. FTIR analysis was done for the confirmation of the reaction of PVP and TA in blended membranes and plain PSn membranes. Scanning electron microscope (SEM), field emission scanning electron microscope (FESEM) and atomic force microscopy (AFM) were used for analyzing the morphology and structure of the resulting membranes. The membranes were characterized in terms of pure water flux (PWF), hydraulic permeability and HPCT. PWF increased from to for plain and D-TA containing PSn membrane, respectively. Water contact angle also found to be decreased from to . In Additionally, permeation and rejection behavior of prepared membranes was studied by bovine serum albumin (BSA) solution. A considerable increase in BSA flux (from for plain membrane to for D-TA containing membrane) was observed. FESEM images affirm that the pore size of the membranes decreases and the membrane permeability increases from 0.16 to 0.32 by the addition of D-TA in the membrane. D-TA increases the HPCT whereas; DL-TA decreases the HPCT of PSn membrane. PVP (average molecular weight of 40000 Da) with D-TA (1 wt%) gave best performance among all the membranes for each parameter.
 Keywords
polysulfone;tartaric acid;hydrophilicity;chirality;polyvinyl pyrrolidone;BSA rejection;
 Language
English
 Cited by
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Preparation of activated carbon incorporated polysulfone membranes for dye separation, Membrane Water Treatment, 2016, 7, 6, 477  crossref(new windwow)
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