An overview on the technology of cross-linking of starch for nonfood applications

Journal of Plastic Film and Sheeting

Volumn 25, Issue 1, 2009, Pages 25-45

  Ayoub, Ali S ^a   Rizvi, Syed S H ^a  

^a Program on Infrastructure Policy   (United States)

Author keywords

Biodegradable; Bioplastics; Cross linking; Photocrosslinking; Starch; Supercritical fluid extrusion

Indexed keywords

BIODEGRADABLE; BIODEGRADABLE STARCH; BIOPLASTICS; COMMERCIAL APPLICATIONS; FAST REACTION; HIGH COSTS; HOT WATER; PHOTOCROSSLINKING; PROCESS LINE; SUPERCRITICAL FLUID EXTRUSION;

BIOMOLECULES; BIOPOLYMERS; EFFLUENT TREATMENT; EXTRUSION; FRACTURE MECHANICS; IMPACT RESISTANCE; PHOTORESISTS; PLASTICITY; PLASTICS APPLICATIONS; POLYSACCHARIDES; REINFORCED PLASTICS; SUPERCRITICAL FLUIDS; WATER;

STARCH;

EID: 70149098896     PISSN: 87560879     EISSN: 15308014     Source Type: Journal    
DOI: 10.1177/8756087909336493     Document Type: Review

References (40)

1. Brautlecht, C.A. (1953). Starch: Its Sources, Production and Uses, Reinhold Publishing Co, New York.
2. Biliaderis, C.G. (1991). The Structure and Interactions of Starch with Food Constituents, Canadian Journal of Physiology and Pharmacology, 69(1): 60-78.
3. Rouse 3rd, W.M., Valles, M., Martino, G.T. and Chui, C.-W. (1994). Cosmetics Containing Enzymatically Debranched Starch, US Patent No. 5,496,861.
4. Pierce, N.F., Fontaine, O. and Sack, R.B. (2000). Amylase-resistant Starch Plus Oral Rehydration Solution for Cholera, The New England Journal of Medicine, 342(5): 308-313.
5. Jobling, S. (2004). Improving Starch for Food and Industrial Applications, Current Opinion in Plant Biology, 7(2): 210-218.
6. Ellis, R.P., Cochrane, M.P., Dale, M.F.B., Duffus, C.M., Lynn, A., Morrison, I.M., Prentice, R.D.M., Swanston, J.S. and Tiller, S. (1999). Starch Production and Industrial Use, Journal of Science of Food and Agriculture, 77(3): 289-311.
7. Whistler, R.L., BeMiller, J.N. and Paschall, E.F. (1984). Starch: Chemistry and Technology, 2nd edn, Academic Press, San Diego, California.
8. Entwistle, G., Bachelor, S., Booth, E. and Walker, K. (1998). Economics of Starch Production in the UK, Industrial Crops and Products, 7(2): 175-186.
9. Wolf, B.W., Bauer, L.L. and Fahey, G.C. (1999). Effects of Chemical Modification on In Vitro Rate and Extent of Food Starch Digestion: An Attempt to Discover a Slowly Digested Starch, Journal of Agricultural and Food Chemistry, 47(10): 4178-4183.
10. Miladinov, V.D. and Hanna, M.A. (1999). Physical and Molecular Properties of Starch Acetates Extruded with Water and Ethanol, Indutrial and Engineering Chemical Research, 38(10): 3892-3897.
11. Anderson, K.R. (1992) Cationic Cross-linked Starch for Wet-end Use in Papermaking, US Patent No. 5,122,231.
12. Wurzburg, O.B. (1958). Preparation of Starch Derivatives, US Patent No. 2,935,510.
13. Austin, H.Y. (1978). Copolymerized Starch Composition, US Patent No. 4,079,025.
14. Wing, R.E. and Doane, W.M. (1976). Removal of Heavy Metal Ions from Aqueous Solutions with Insoluble Cross-linked Starch Xanthates, US Patent No. 3,979, 286.
15. Kyungsoo, W. and Seib, P.A. (1997). Cross-linking of Wheat Starch and Hydroxypropylated Wheat Starch in Alkaline Slurry with Sodium Trimetaphosphate, Carbohydrate Polymers, 33(4): 263-271.
16. Kyungsoo, W. and Seib, P.A. (2002). Cross-linked Resistant Starch: Preparation and Properties, Cereal Chemistry, 79(6): 819-825.
17. Hamdi, G.H., Ponchel, G. and Duchene, D. (2001). Formulation of Epichlorohydrin Cross-linked Starch Microspheres, Journal of Microencapsulation, 18(3): 373-383.
18. Reddy, I. and Seib, P.A. (2000). Modified Waxy Wheat Starch Compared to Modified Waxy Corn Starch, Journal of Cereal Science, 31(1): 25-39.
19. Masuda, F., Nishida, K. and Nakamura, A. (1978). Water Absorbing Starch Resins, US Patent No. 4,076,663.
20. Delval, F., Crini, G., Bertini, S., Morin-Crini, N., Badot, P.M., Vebrel, J. and Torri, G. (2004). Characterization of Cross-linked Starch Materials with Spectroscopic Techniques, Carbohydrate Polymers, 93(3): 2650-2663.
21. Sreedhar, B., Chattopadhyay, D.K., Sri Hari Karumakar, M. and Sastry, A.R. (2006). Thermal and Surface Characterization of Plasticized Starch Polyvinyl Alcohol Blends Crosslinked with Epichlorohydrin, Journal of Applied Polymer Science, 101(1): 25-34.
22. Kleintjens, L.A. (1998). Petro Polymers vs. Green Polymers. Die Makromolekulare Chemie, Macromolecular Symposia 127. Huthig & Wepf, Zug, Switzerland.
23. Scott, G. (1999). Polymers and the Environment, Royal Society of Chemistry, Cambridge.
24. Stevens, E.S. (ed.) (2002). Plastics and the Environment, In: Green Plastics: An Introduction to the New Science of Biodegradable Plastics, Chapter 3, pp. 23-30, Princeton University Press, New Jersey, USA.
25. Kalambur, S. and Rizvi, S.S.H. (2005). Biodegradable and Functionally Superior Starch-Polyester Nanocomposites from Reactive Extrusion, Journal of Applied Polymer Science, 96(4): 1072-1082.
26. Narayan, R., Krishnan, M. and Dubois, P. (1999). Aliphatic Polyester-grafted Starch-like Polysaccharides by Ring-opening Polymerization, Polymer, 40(11): 77-87.
27. Narayan, R., Krishnan, M., Snook, J.B., Gupta, A. and Dubois, P. (1999). Bulk Reactive Extrusion Polymerisation Process Producing Aliphatic Ester Polymer Compositions, US Patent No. 5,969,089.
28. Wurzburg, O.B. (ed.) (1986). Cross-linked Starches, Chapter 3, in Modified Starches: Properties and Uses, pp. 41-47, CRC Press, Boca Raton, Florida, USA.
29. Koch, Von H., Bommer, H.D. and Kloppers, J. (1982). Analytische untersuchungen von phosphatvernetzten starken, Die Starke, 34(1): 16-21.
30. Mitchell, G.A., Vanderbist, M.J. and Meert, F.F. (1982). Gas-liquid Chromatographic Determination of Adipate Content of Acetylated Distarch Adipate, Journal of Association of Official Analytical Chemists, 65(2): 238-240.
31. Fei, B.R.A., Mitomo, H., Yoshii, F. and Kume, T. (2000). Hydrogel of Biodegradable Cellulose Derivatives I. Radiation-induced Crosslinking of CMC, Journal of Applied Polymer Science, 78(2): 278-283.
32. Zhao, L., Mitomo, H., Nagasawa, N., Yoshii, F. and Kume, T. (2003). Radiation Synthesis and Characteristic of the Hydrogels Based on Carboxymethylated Chitin Derivatives, Carbohydrate Polymers, 51(2): 169-175.
33. Nagasawa, N., Yagi, T., Kume T. and Yoshii, F. (2004). Radiation Crosslinking of Carboxymethyl Starch, Carbohydrate Polymers, 58(2): 109-113.
34. Seow, C.C., Cheah, P.B. and Chang, Y.P. (1999). Antiplasticization by Water in Reduced-moisture Food Systems, Journal of Food Science, 64(4): 576-581.
35. Zeleznak, K.J. and Hoseney, R.C. (1987). The Glass Transition in Starch, Cereal Chemistry, 64(2): 121-124.
36. Delville, J., Joly, C., Dole, P. and Bliard, C. (2002). Solid State Photocrosslinked Starch Based Films: A New Family of Homogeneous Modified Starches, Carbohydrate Polymers, 49(1): 71-81.
37. Glenn, G. and Stern, D.J. (1997). Starch-based Microcellular Foams, US Patent No. 5,958,589.
38. Rizvi, S.S.H. and Mulvaney, S.J. (1992). Extrusion Processing with Supercritical Fluids, US Patent No. 5,120,559.
39. Ayoub, A. and Rizvi, S.S.H. (2008). Properties of Supercritical Fluid Extrusion-based Crosslinked Starch Extrudates, Journal of Applied Polymer Science, 107(6): 3663-3671.
40. Sokhey, A.S., Rizvi, S.S.H. and Mulvaney, S.J. (1996). Application of Supercritical Fluid Extrusion to Cereal Processing, Cereal Foods World, 41(10): 29-34.