report
2.4.7 References

1.       ZHAO, R. X., TORLEY, P. & HALLEY, P. J. (2008) Emerging biodegradable materials: starch- and protein-based bio-nanocomposites. Journal of Materials Science, 43, 3058-3071.

2.       MARSH, K. & BUGUSU, B. (2007) Food Packaging—Roles, Materials, and Environmental Issues. Journal of Food Science, 72, R39-R55.

3.       Food Packaging: Principles and Practice, Second Edition (2006).  Gordon L. Robertson

4.       CHRISTINA KRIEGEL, ALESSANDRA ARRECHI,2 KEVIN KIT,D.J. McCLEMENTS, and JOCHEN WEISS (2008) Fabrication, Functionalization, and Application of Electrospun Biopolymer Nanofibers. Critical Reviews in Food Science and Nutrition, 48:775–797 (2008)

5.       S. TORRES-GINER,M. J. OCIO, J. M. LAGARON (2008) Development of Active Antimicrobial Fiber-Based Chitosan Polysaccharide  Nanostructures using Electrospinning. Engineering in Life Sciences Volume 8 Issue 3, Pages 303 - 314

6.       J. A. MATTHEWS, G. E. WNEK, D. G. SIMPSON,  and G. L. BOWLIN (2002) Electrospinning of Collagen Nanofibers. Biomacromolecules 2002, 3, 232-238

7.       RHIM, J. W. & NG, P. K. W. (2007) Natural biopolymer-based nanocomposite films for packaging applications. Critical Reviews in Food Science and Nutrition, 47, 411-433.

8.       PAUL, D.R. & ROBESON, L.M. (2008) Polymer nanotechnology: Nanocomposites. Polymer, 49, 3187-3204.

9.       DE ABREU, D. A. P., LOSADA, P. P., ANGULO, I. & CRUZ, J. M. (2007) Development of new polyolefin films with nanoclays for application in food packaging. European Polymer Journal, 43, 2229-2243.

10.   SUN, L., BOO, W.-J., CLEARFIELD, A., SUE, H.-J. & PHAM H.Q. (2008) Barrier properties of model epoxy nanocomposites. Journal of Membrane Science, 318, 129–136.

11.   JABER, J. A. & SCHLENOFF, J. B. (2006) Recent developments in the properties and applications of polyelectrolyte multilayers. Current Opinion in Colloid & Interface Science, 11, 324-329.

12.   JANG, W. S., RAWSON, I. & GRUNLAN, J. C. (2008) Layer-by-layer assembly of thin film oxygen barrier. Thin Solid Films, 516, 4819-4825.

13.   Ultrasonic Spray technology, Sono-Tek Corp, http://www.sono-tek.com/nanotechnology/SubCategory/1

14.   S. TORRES-GINER,M. J. OCIO, J. M. LAGARON (2008) Development of Active Antimicrobial Fiber-Based Chitosan Polysaccharide  Nanostructures using Electrospinning. Engineering in Life Sciences Volume 8 Issue 3, Pages 303 - 314

15.   YING-LING LIU, WEI-HONG CHEN, YU0HSun Chang. (2009) Preparation and properties of chitosan/carbon nanotube nanocomposites using poly(styrene sulfonic acid)-modified CNTs. Carbohydrate Polymers Volume 76, Issue 2, 17 March 2009, Pages 232-238

16.   CHA, D. S. & CHINNAN, M. S. (2004) Biopolymer-based antimicrobial packaging: A review. Critical Reviews in Food Science and Nutrition, 44, 223-237.

17.   see the Project on Emerging Nanotechnology, Consumer Product Inventory http://www.nanotechproject.org/inventories/consumer/

18.   SONDI, I. & SALOPEK-SONDI, B. (2004) Silver nanoparticles as antimicrobial agent: a case study on E-coli as a model for Gram-negative bacteria. Journal of Colloid and Interface Science, 275, 177-182.

19.   YAMAMOTO, O. (2001) Influence of particle size on the antibacterial activity of zinc oxide. International Journal of Inorganic Materials, 3, 643-646.

20.   JONES, N., RAY, B., RANJIT, K.T. & MANNA, A.C. (2008) Antibacterial activity of ZnO nanoparticle suspensions on a broad spectrum of microorganisms. FEMS Microbiology Letters, 279, 71-76.

21.   CHANDRAMOULEESWARAN, S., MHASKE, S. T., KATHE, A. A., VARADARAJAN, P. V., PRASAD, V. & VIGNESHWARAN, N. (2007) Functional behaviour of polypropylene/ZnO-soluble starch nanocomposites. Nanotechnology, 18, 8.

22.   QI, L. F., XU, Z. R., JIANG, X., HU, C. H. & ZOU, X. F. (2004) Preparation and antibacterial activity of chitosan nanoparticles. Carbohydrate Research, 339, 2693-2700.

23.   SANPUI, P., MURUGADOSS, A., PRASAD, P. V. D., GHOSH, S. S. & CHATTOPADHYAY, A. (2008) The antibacterial properties of a novel chitosan-Ag-nanoparticle composite. International Journal of Food Microbiology, 124, 142-146.

24.   WANG, X. Y., DU, Y. M., YANG, H. H., WANG, X. H., SHI, X. W. & HU, Y. (2006b) Preparation, characterization and antimicrobial activity of chitosan/layered silicate nanocomposites. Polymer, 47, 6738-6744.

25.   WANG, X. Y., DU, Y. M., LUO, J. W., LIN, B. F. & KENNEDY, J. F. (2007c) Chitosan/organic rectorite nanocomposite films: Structure, characteristic and drug delivery behaviour. Carbohydrate Polymers, 69, 41-49.

26.   HUANG, Z. M., ZHANG, Y. Z., KOTAKI, M. & RAMAKRISHNA, S. (2003) A review on polymer nanofibers by electrospinning and their applications in nanocomposites. Composites Science and Technology, 63, 2223-2253.

27.   TORRES-GINER, S., GIMENEZ, E. & LAGARONA, J. M. (2008) Characterization of the morphology and thermal properties of zein prolamine nanostructures obtained by electrospinning. Food Hydrocolloids, 22, 601-614.

28.   YAM, K. L., TAKHISTOV, P. T. & MILTZ, J. (2005) Intelligent packaging: Concepts and applications. Journal of Food Science, 70, R1-R10.

29.   BRODY, A. L., BUGUSU, B., HAN, J. H., SAND, C. K. & MCHUGH, T. H. (2008) Innovative food packaging solutions. Journal of Food Science, 73, R107-R116.

30.   JOHNSTON, J. H., GRINDROD, J. E., DODDS, M. & SCHIMITSCHEK, K. (2007) Composite nano-structured calcium silicate phase change materials for thermal buffering in food packaging. 3rd International Conference on Advanced Materials and Nanotechnology. Wellington, NEW ZEALAND, Elsevier Science Bv.

31.   World patent number 0073718: Self-cooling beverage and food container using fullerene nanotubes

32.   MILLS, A., DOYLE, G., PEIRO, A. M. & DURRANT, J. (2006) Demonstration of a novel, flexible, photocatalytic oxygen-scavenging polymer film. Journal of Photochemistry and Photobiology a-Chemistry, 177, 328-331.

33.   US patent number 5922776: Sustained release, transparent biocidal compositions

34.   US patent number 7273567: Energy-activated compositions for controlled sustained release of a gas

35.   WU, D. Y., MEURE, S. & SOLOMON, D. (2008) Self-healing polymeric materials: A review of recent developments. Progress in Polymer Science, 33, 479-522.

36.   CROSBY, A. J. & LEE, J. Y. (2007) Polymer nanocomposites: The "nano" effect on mechanical properties. Polymer Reviews, 47, 217-229.

37.   MILLS, A., TOMMONS, C., BAILEY, R. T., TEDFORD, M. C. & CRILLY, P. J. (2008) UV-activated luminescence/colourimetric O-2 indicator. International Journal of Photoenergy, 6.

38.   PURSIAINEN, O.L.J., BAUMBERG, J.J., RYAN, K., BAUER, J., WINKLER, H., VIEL, B. & RUHL, T. (2005) Compact strain-sensitive flexible photonic crystals for sensors. Applied Physics Letters, 87, 101902.

39.   LU, Y. F., YANG, Y., SELLINGER, A., LU, M. C., HUANG, J. M., FAN, H. Y., HADDAD, R., LOPEZ, G., BURNS, A. R., SASAKI, D. Y., SHELNUTT, J. & BRINKER, C. J. (2001) Self-assembly of mesoscopically ordered chromatic polydiacetylene/silica nanocomposites. Nature, 410, 913-917.

40.   WANG, X., YANG, K., YE, H., WANG, Y. P., LEE, J. S. & SANDMAN, D. J. (2006a) Methods for the preparation of micro- and nanocrystals of urethane-substituted polydiacetylenes. Journal of Macromolecular Science Part a-Pure and Applied Chemistry, 43, 1937-1943.

41.   World patent number 2007148321: Irreversible Coolness Detector.  Marketed as iStrip, http://www.timestrip.com/

42.   LAWRENCE, B. D., CRONIN-GOLOMB, M., GEORGAKOUDI, I., KAPLAN, D. L. & OMENETTO, F. G. (2008) Bioactive silk protein biomaterial systems for optical devices. Biomacromolecules, 9, 1214-1220.

43.   Edible sensors may indicate bacterial contamination, Food Technology Daily, 13.08.08

44.   SUBRAMANIAN, V., FRECHET, J. M. J., CHANG, P. C., HUANG, D. C., LEE, J. B., MOLESA, S. E., MURPHY, A. R. & REDINGER, D. R. (2005) Progress toward development of all-printed RFID tags: Materials, processes, and devices. Proceedings of the Ieee, 93, 1330-1338.

45.   TENTZERIS, M. M. & IEEE (2008) Novel paper-based inkjet-printed antennas and wireless sensor modules. IEEE International Conference on Microwaves, Communications, Antennas and Electronic Systems. Tel-Aviv, ISRAEL, Ieee.

46.   LOH, K. J., LYNCH, J. P. & KOTOV, N. A. (2007) Passive wireless sensing using SWNT-based multifunctional thin film patches. 13th International Symposium on Applied Electromagnetics and Mechanics. E Lansing, MI, Ios Press.

47.   DEMOUSTIER, S., MINOUX, E., LE BAILLIF, M., CHARLES, M. & ZIAEI, A. (2008) Review of two microwave applications of carbon nanotubes: nano-antennas and nano-switches. Comptes Rendus Physique, 9, 53-66.

48.   JEDERMANN, R., BEHRENS, C., WESTPHAL, D. & LANG, W. (2006) Applying autonomous sensor systems in logistics - Combining sensor networks, RFIDs and software agents. Sensors and Actuators a-Physical, 132, 370-375.

49.   POTYRAILO, R. A., MOUQUIN, H. & MORRIS, W. G. (2008) Position-independent chemical quantitation with passive 13.56-MHz radio frequency identification (RFID) sensors. Talanta, 75, 624-628.

50.   World patent number 0240579: Coated films and coating compositions

51.   The smart money is on intelligent design, Food Manufacture, 01.02.07

52.   US patent number 2007020456: Dry-coated oxygen-scavenging particles and methods of making them

53.   Assuring the safety of nanomaterials in food packaging: the regulatory process and key issues, Michael R. Taylor, Project on Emerging Nanotechnologies, 12th July 2008.   http://www.nanotechproject.org/publications/archive/nano_food_packaging/

54.   http://www.sustainpack.com/index.php

55.   http://www.goodfood-project.org/

56.   Active packaging under the spotlight, Food Production Daily, 30.10.08

57.   Process may offer biodegradablity in petrochemical plastics, Food Production Daily, 04.08.08.