Properties of starch-based packaging film incorporated with chitosan and lauric acid as antimicrobial agents
This study aimed to develop the antimicrobial (AM) packaging based on wheat starch incorporated with chitosan and lauric acid as antimicrobial agents. A series of blends with different ratio of starch, chitosan and lauric acid (S:C:LA) were prepared by casting method. Effects of incorporation of ant...
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TP Chemical technology Salleh, Eraricar Properties of starch-based packaging film incorporated with chitosan and lauric acid as antimicrobial agents |
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This study aimed to develop the antimicrobial (AM) packaging based on wheat starch incorporated with chitosan and lauric acid as antimicrobial agents. A series of blends with different ratio of starch, chitosan and lauric acid (S:C:LA) were prepared by casting method. Effects of incorporation of antimicrobial agents into starch-based film were investigated in order to improve the spectrum activity based on measured distributions of inhibitory results. The diffusivity equation approach for describing the antimicrobial effects was also extended to include information on the molecular size of particles in the formed matrices. The Agar Disc Diffusion Assay and Liquid Culture Test measured the distributions of inhibitory effect towards the type of bacterial contamination in terms of Gram-positive, Gram-negative and their combination of wider spectrum activity in the blend films. For the first time, the inhibition size distribution resulting from rationing of base polymers and lauric acid as filler in the starch-base film itself was quantified. Spectrum activity of different Gram-stained bacteria as measured by the bacterial growth inhibition, gave surprisingly consistent pattern on rationing of compositions in the film. This indicates that the spectrum activity produced by the antimicrobial components can be related directly to the ratio on blending during film preparation. This phenomenon is proven by dominating of chitosan (S:C:LA ratio 1:9:0.08 to 3:7:0.24) for 48% increase of effective E. coli inhibition (Gram-negative bacteria). More positively, however, it signifies that the affinity of lauric acid towards starch as reported by previous research indicates relatively unambiguously the ratio required to achieve a constant degree of B. subtilis (Gram-positive) bacterial inhibition from starch/chitosan/lauric acid dominating of S:C:LA ratio at 4:6:0.32 to 7:3:0.56. Furthermore, S:C:LA ratio 8:2:0.64 and 9:1:0.72 showed good synergic inhibition of 54% higher relative to sole chitosan towards both bacteria. This implies that the ratio index is inherently meaningful, and explains why it has been possible in this work to relate the ratio index directly to a change in physical property of the structural-modified polymer matrices. Further studies of antimicrobial effects investigated the mode of release from the base film. The release of lauric acid in fatty acid food stimulant was satisfactorily expressed by Fickian-diffusion mechanism described by zero order kinetics which indicated that lauric acid released from the film matrix remains constant over time. The physical and mechanical properties of the films were improved relative to sole starch film. Increasing starch amount resulted in progressive interaction and stronger bonding between starch and chitosan molecules nevertheless decreasing the mechanical properties as shown by the results from OTR, WVTR and microstructure studies. S:C:LA ratio 5:5:0.40 gave the most smooth surfaces followed by S:C:LA ratio 6:4:0.48 which confirmed the most homogeneous and dense structure achievable. That is an indicative of a homogeneous and good miscibility or blending of starch and chitosan where SEM, XRD and FTIR analysis confirmed these properties. Results showed that S:C:LA ratio 5:5:0.40 is the phase inversion between S:C:LA ratio dominate by chitosan (S:C:LA ratio 1:9:0.08-4:6:0.32) and S:C:LA ratio dominated by starch (S:C:LA ratio 6:4:0.48-9:1:0.72). These were proven by the SEM, XRD, tensile strength, percent elongation, water uptake, diffusion coefficient, OTR and WVTR results analysis. |
| format |
Thesis |
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Doctor of Philosophy (PhD.) |
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Doctorate |
| author |
Salleh, Eraricar |
| author_facet |
Salleh, Eraricar |
| author_sort |
Salleh, Eraricar |
| title |
Properties of starch-based packaging film incorporated with chitosan and lauric acid as antimicrobial agents |
| title_short |
Properties of starch-based packaging film incorporated with chitosan and lauric acid as antimicrobial agents |
| title_full |
Properties of starch-based packaging film incorporated with chitosan and lauric acid as antimicrobial agents |
| title_fullStr |
Properties of starch-based packaging film incorporated with chitosan and lauric acid as antimicrobial agents |
| title_full_unstemmed |
Properties of starch-based packaging film incorporated with chitosan and lauric acid as antimicrobial agents |
| title_sort |
properties of starch-based packaging film incorporated with chitosan and lauric acid as antimicrobial agents |
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Universiti Teknologi Malaysia, Faculty of Chemical Engineering |
| granting_department |
Faculty of Chemical Engineering |
| publishDate |
2011 |
| url |
http://eprints.utm.my/id/eprint/32521/1/Eraricar%20SallehPFKK2011.pdf |
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my-utm-ep.325212018-05-27T07:46:42Z Properties of starch-based packaging film incorporated with chitosan and lauric acid as antimicrobial agents 2011 Salleh, Eraricar TP Chemical technology This study aimed to develop the antimicrobial (AM) packaging based on wheat starch incorporated with chitosan and lauric acid as antimicrobial agents. A series of blends with different ratio of starch, chitosan and lauric acid (S:C:LA) were prepared by casting method. Effects of incorporation of antimicrobial agents into starch-based film were investigated in order to improve the spectrum activity based on measured distributions of inhibitory results. The diffusivity equation approach for describing the antimicrobial effects was also extended to include information on the molecular size of particles in the formed matrices. The Agar Disc Diffusion Assay and Liquid Culture Test measured the distributions of inhibitory effect towards the type of bacterial contamination in terms of Gram-positive, Gram-negative and their combination of wider spectrum activity in the blend films. For the first time, the inhibition size distribution resulting from rationing of base polymers and lauric acid as filler in the starch-base film itself was quantified. Spectrum activity of different Gram-stained bacteria as measured by the bacterial growth inhibition, gave surprisingly consistent pattern on rationing of compositions in the film. This indicates that the spectrum activity produced by the antimicrobial components can be related directly to the ratio on blending during film preparation. This phenomenon is proven by dominating of chitosan (S:C:LA ratio 1:9:0.08 to 3:7:0.24) for 48% increase of effective E. coli inhibition (Gram-negative bacteria). More positively, however, it signifies that the affinity of lauric acid towards starch as reported by previous research indicates relatively unambiguously the ratio required to achieve a constant degree of B. subtilis (Gram-positive) bacterial inhibition from starch/chitosan/lauric acid dominating of S:C:LA ratio at 4:6:0.32 to 7:3:0.56. Furthermore, S:C:LA ratio 8:2:0.64 and 9:1:0.72 showed good synergic inhibition of 54% higher relative to sole chitosan towards both bacteria. This implies that the ratio index is inherently meaningful, and explains why it has been possible in this work to relate the ratio index directly to a change in physical property of the structural-modified polymer matrices. Further studies of antimicrobial effects investigated the mode of release from the base film. The release of lauric acid in fatty acid food stimulant was satisfactorily expressed by Fickian-diffusion mechanism described by zero order kinetics which indicated that lauric acid released from the film matrix remains constant over time. The physical and mechanical properties of the films were improved relative to sole starch film. Increasing starch amount resulted in progressive interaction and stronger bonding between starch and chitosan molecules nevertheless decreasing the mechanical properties as shown by the results from OTR, WVTR and microstructure studies. S:C:LA ratio 5:5:0.40 gave the most smooth surfaces followed by S:C:LA ratio 6:4:0.48 which confirmed the most homogeneous and dense structure achievable. That is an indicative of a homogeneous and good miscibility or blending of starch and chitosan where SEM, XRD and FTIR analysis confirmed these properties. Results showed that S:C:LA ratio 5:5:0.40 is the phase inversion between S:C:LA ratio dominate by chitosan (S:C:LA ratio 1:9:0.08-4:6:0.32) and S:C:LA ratio dominated by starch (S:C:LA ratio 6:4:0.48-9:1:0.72). These were proven by the SEM, XRD, tensile strength, percent elongation, water uptake, diffusion coefficient, OTR and WVTR results analysis. 2011 Thesis http://eprints.utm.my/id/eprint/32521/ http://eprints.utm.my/id/eprint/32521/1/Eraricar%20SallehPFKK2011.pdf application/pdf en public http://dms.library.utm.my:8080/vital/access/manager/Repository/vital:90442?queryType=vitalDismax&query=Properties+of+starch-based+packaging+film+incorporated+with+chitosan+and+lauric+acid+as+antimicrobial+agents&public=true phd doctoral Universiti Teknologi Malaysia, Faculty of Chemical Engineering Faculty of Chemical Engineering |