Nanoscience and nanotechnologies in food industries: opportunities and research trends

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• 作者：Shivendu Ranjan (1)
  Nandita Dasgupta (1)
  Arkadyuti Roy Chakraborty (1)
  S. Melvin Samuel (1)
  Chidambaram Ramalingam (1)
  Rishi Shanker (2)
  Ashutosh Kumar (2)
  
• 关键词：Nanotechnology ; Nano ; food ; Functional food ; Food packaging ; Nano ; food technology
• 刊名：Journal of Nanoparticle Research
• 出版年：2014
• 出版时间：June 2014
• 年：2014
• 卷：16
• 期：6
• 全文大小：
• 参考文献：1. Acosta E (2009) Bioavailability of nanoparticles in nutrient and nutraceutical delivery. Curr Opin Colloid Interface Sci 14(1):3鈥?5
  2. Adame D, Beall GW (2009) Direct measurement of the constrained polymer region inpolyamide/clay nanocomposites and the implications for gas diffusion. Appl Clay Sci 42:545鈥?52
  3. Ahuja T, Mir IA, Kumar D, Rajesh (2007) Biomolecular immobilization on conducting polymers for biosensing applications. Biomaterials 28:791鈥?05
  4. Alexandre M, Dubois P (2000) Polymer-layered silicate nanocomposites: preparation, properties and uses of a new class of materials. Mater Sci Eng R 28:1鈥?3
  5. Alexandre B, Langevin D, M茅d茅ric P, Aubry T, Couderc H, Nguyen QT, Saiter A, Marais S (2009) Water barrier properties of polyamide 12/montmorillonitenanocomposite membranes: structure and volume fraction effects. J Memb Sci 328(1鈥?):186鈥?04
  6. Amagliani G, Omiccioli E, del Campo A, Bruce IJ, Brandi G, Magnani M (2006) Development of a magnetic capture hybridization-PCR assay for / Listeria monocytogenes direct detection in milk samples. J Appl Microbiol 100:375鈥?83
  7. Ankola DD, Viswanad B, Bhardwaj V, Ramarao P, Kumar MN (2007) Development of potent oral nanoparticulate formulation of coenzyme Q10 for treatment of hypertension: can the simple nutritional supplements be used as first line therapeutic agents for prophylaxis/therapy? Eur J Pharm Biopharm 67:361鈥?69
  8. Anpo M, Kishiguchi S, Ichihashi Y, Takeuchi M, Yamashita H, Ikeue K, Morin B, Davidson A, Che M (2001) The design and development of second-generation titanium oxide photocatalysts able to operate under visible light irradiation by applying a metal ion-implantation method. Res Chem Intermed 27(4鈥?):459鈥?67
  9. Anton N, Benoit JP, Saulnier P (2008) Design and production of nanoparticles formulated from nano-emulsion templates鈥攁 review. J Control Release 128:185鈥?99
  10. Arora A, Padua GW (2010) Review: nanocomposites in food packaging. J Food Sci 75:R43鈥揜49
  11. Arshak K, Adley C, Moore E, Cunniffe C, Campion M, Harris J (2007) Characterisation of polymer nanocomposite sensors for quantification of bacterial cultures. Sens Actuators B 126:226鈥?31
  12. Astete CE, Sabliov CM, Watanabe F, Biris A (2009) Ca²⁺ cross-linked alginic acid nanoparticles for solubilization of lipophilic natural colorants. J Agric Food Chem 57:7505鈥?512
  13. Azizi SMAS, Alloin F, Dufresne A (2005) Review of recent research into cellulosic whiskers, their properties and their application in nanocomposite field. Biomacromolecules 6:612鈥?26
  14. Beyer PL, Jach TE, Zak DL, Jerome RA, Debrincat FP (1996) Edible products having inorganic coatings. US patent 5741505
  15. Bouwmeester H, Dekkers S, Noordam MY, Hagens WI, Bulder AS, de Heer C, ten Voorde SE, Wijnhoven SW, Marvin HJ, Sips AJ (2009) Review of health safety aspects of nanotechnologies in food production. Regul Toxicol Pharmacol 53:52鈥?2
  16. Brody AL, Bugusu B, Han JH, Sand CK, McHugh TH (2008) Innovative food packaging solutions. J Food Sci 73:R107鈥揜116
  17. Bugusu B, Lay-Ma UV, Floros JO (2011) Products and their commercialization. In: Frewer LJ, Norde W, Fisher A, Kampers F (eds) Nanotechnology in the agri-food sector鈥攊mplications for the future. Wiley-VCH, Weinheim, pp 149鈥?70
  18. Carla ML, Jos茅 RF, Paula ML (2013) Application of nanotechnology in the agro-food sector. Food Technol Biotechnol 51:183鈥?97
  19. Carretero MI, Pozo M (2009) Clay and non-clay minerals in the pharmaceutical industry: part I. Excipients and medical applications. Appl Clay Sci 46:73鈥?0
  20. Center for Biological Nanotechnology (2001) http://www.vitamincity.com/umichnanobio.htm. Accessed 01 Dec 2013
  21. Chaudhry Q, Groves K (2010) Nanotechnology Applications for Food Ingredients, Additives and Supplements. In: Chaudhry Q, Castle L, Watkins R (eds) Nanotechnologies in Food. RSC Publishing, Cambridge, pp 69鈥?5
  22. Chaudhry Q, Scotter M, Blackburn J, Ross B, Boxall A, Castle L et al (2008) Applications and implications of nanotechnologies for the food sector. Food Addit Contam A 25:241鈥?58
  23. Chawengkijwanich C, Hayata Y (2008) Development of TiO₂ powder-coated food packaging film and its ability to inactivate / Escherichia coli in vitro and in actual tests. Int J Food Microbiol 123(3):288鈥?92
  24. Chen B, Evans JRG (2005) Thermoplastic starch鈥揷lay nanocomposites and their characteristics. Carbohydr Polym 61:455鈥?63
  25. Chen L, Subirade M (2005) Chitosan/尾-lactoglobulin core鈥搒hell nanoparticles as nutraceutical carriers. Biomaterials 26:6041鈥?053
  26. Chen HD, Weiss JC, Shahidi F (2006) Nanotechnology in nutraceuticals and functional foods. Food Technol 60:30鈥?6
  27. Chen YC, Yu SH, Tsai GJ, Tang DW, Mi FL, Peng YP (2010) Novel technology for the preparation of self-assembled catechin/gelatin nanoparticles and their characterization. J Agric Food Chem 58:6728鈥?734
  28. Cheng Q, Li C, Pavlinek V, Saha P, Wang H (2006) Surface-modified antibacterial TiO₂/Ag⁺ nanoparticles: preparation and properties. Appl Surf Sci 252:4154鈥?160
  29. Choi W, Termin A, Hoffmann MR (1994) The role of metal ion dopants in quantum size TiO₂: correlation between photoreactivity and charge carrier recombination dynamics. J Phys Chem 98:13669鈥?3679
  30. Cioffi N, Torsi L, Ditaranto N, Tantillo G, Ghibelli L, Sabbatini L, Bleve-zacheo T, D鈥檃lessio M, Zambonin PG, Traversa E (2005) Copper nanoparticle/polymer composites with antifungal and bacteriostatic properties. Chem Mater 17:5255鈥?262
  31. Ciss茅 M, Vaillant F, Pallet D, Dornier M (2011) Selecting ultrafiltration and nanofiltration membranes to concentrate anthocyanins from roselle extract ( / Hibiscus sabdariffa L.). Food Res Int 44:2607鈥?614
  32. Cuartas-Uribe B, Alcaina-Miranda MI, Soriano-Costa E, Bes-Pia A (2007) Comparison of the behavior of two nanofiltration membranes for sweet whey demineralization. J Dairy Sci 90:1094鈥?101
  33. Cushen M, Kerry J, Morris M, Cruz-Romero M, Cummins E (2012) Nanotechnologies in the food industry鈥攔ecent developments, risks and regulation. Trends Food Sci Technol 24:30鈥?6
  34. Cushing BL, Vladimir LK, Charles JO (2004) Recent advances in the liquid-phase syntheses of inorganic nanoparticles. Chem Rev 104:3893鈥?946
  35. Cyras VP, Manfredi LB, Ton-that MT, V谩zquez A (2008) Physical and mechanical properties of thermoplastic starch/montmorillonite nanocomposite films. Carbohydr Polym 73:55鈥?3
  36. Dalmas F, Cavaill茅 JY, Gauthier C, Chazeau L, Dendievel R (2007) Viscoelastic behavior and electrical properties of flexible nanofiber filled polymer nanocomposites. Influence of processing conditions. Compos Sci Technol 67:829鈥?39
  37. Danie KJ, Shivendu R, Nandita D, Proud S (2013) Nanotechnology for tissue engineering: need, techniques and applications. J Pharm Res 7(2):200鈥?04
  38. Ezhilarasi PN, Karthik P, Chhanwal N, Anandharamakrishnan C (2012) Nanoencapsulation techniques for food bioactive components: a review. Food Bioprocess Technol 6(3):628鈥?47
  39. Fern谩ndez A, Cava D, Ocio MJ, Lagaron JM (2008) Perspectives for biocatalysts in food packaging. Trends Food Sci Technol 19(4):198鈥?06
  40. Flanagan J, Singh H (2006) Microemulsions: a potential delivery system for bioactives in food. Crit Rev Food Sci Nutr 46:221鈥?37
  41. Food Safety Authority of Ireland (2008) The relevance for food safety of applications of nanotechnology in the food and feed industries. http://www.fsai.ie/WorkArea/DownloadAsset.aspx?id=7858. Accessed 1 Dec 2013
  42. Fujishima A, Rao TN, Tryk DA (2000) Titanium dioxide photocatalysis. J Photochem Photobiol C 1(1):1鈥?1
  43. Garcia-Castello E, Cassano A, Criscuoli A, Conidi C, Drioli E (2010) Recovery and concentration of polyphenols from olive mil wastewaters by integrated membrane system. Water Res 44:3883鈥?892
  44. Garrido-Ramirez EG, Theng BKG, Mora ML (2010) Clays and oxide minerals as catalysts and nanocatalysts in Fenton-like reactions鈥攁 review. Appl Clay Sci 47:182鈥?92
  45. Garti N, Aserin A (2005) Microemulsions for solubilization and delivery of nutraceuticals and drugs. In: Benita S (ed) Microencapsulation: methods and industrial applications, drugs and the pharmaceutical sciences, vol 158. CRC Press, Taylor and Francis, Boca Raton, pp 345鈥?28
  46. Gelover S, G贸mez LA, Reyes K, Leal MT (2006) A practical demonstration of water disinfection using TiO₂ films and sunlight. Water Res 40:3274鈥?280
  47. Goettler L, Lee K, Thakkar H (2007) Layered silicate reinforced polymer nanocomposites: development and applications. Polym Rev 47:291鈥?17
  48. Gopinath S, Sugunan S (2007) Enzymes immobilized on montmorillonite K 10: effect of adsorption and grafting on the surface properties and the enzyme activity. Appl Clay Sci 35(1鈥?):67鈥?5
  49. Graveland-Bikker JF, De Kruif CG (2006) Unique milk protein based nanotubes: food and nanotechnology meet. Trends Food Sci Technol 17:196鈥?03
  50. Green RJ, Murphy AS, Schulz B, Watkins BA, Ferruzzi MG (2007) Common tea formulations modulate in vitro digestive recovery of green tea catechins. Mol Nutr Food Res 51:1152鈥?162
  51. Gru猫re G, Narrod C, Abbott L (2011) Agriculture, food, and water nanotechnologies for the poor opportunities and constraints policy Brief 19, June 2011. International Food Policy Research Institute (IFPRI), Washington, DC. http://www.ifpri.org/sites/default/files/publications/ifpridp01064.pdf Accessed 05 Dec 2013
  52. Gu HW, Ho PL, Tong E, Wang L, Xu B (2003) Presenting vancomycin on nanoparticles to enhance antimicrobial activities. Nano Lett 3:1261鈥?263
  53. Gu L, Luo PG, Wang H, Meziani MJ, Lin Y, Veca LM, Cao L, Lu F, Wang X, Quinn RA, Wang W, Zhang P, Lacher S, Sun YP (2008) Single-walled carbon nanotube as a unique scaffold for the multivalent display of sugars. Biomacromolecules 9:2408鈥?418
  54. Guti茅rrez-Tauste D, Dom猫nech X, Casa帽-Pastor N, Ayll贸n JA (2007) Characterization of methylene blue/TiO₂ hybrid thin films prepared by the liquid phase deposition (LPD) method: application for fabrication of light-activated colorimetric oxygen indicators. J Photochem Photobiol A 187:45鈥?2
  55. Halliday J (2007) EFSA opens the floor on nanotechnology. http://www.foodnavigator.com/Financial-Industry/EFSA-opens-the-floor-on-nanotechnology. Accessed 28 Nov 2013
  56. Hebbar UH, Raghavarao KSMS (2007) Extraction of bovine serum albumin using nanoparticulate reverse micelles. Process Biochem 42:1602鈥?608
  57. Helbert W, Cavaill茅 CY, Dufresne A (1996) Thermoplastic nanocomposites filled with wheat straw cellulose whiskers. Part I: processing and mechanical behaviour. Polym Compos 17(4):604鈥?11
  58. Hench LL, West JK (1990) The sol鈥揼el process. Chem Rev 90:33鈥?2
  59. Hentschel A, Gramdorf S, Muller RH, Kurz T (2008) 尾-Carotene loaded nanostructured lipid carriers. J Food Sci 73:N1鈥揘6
  60. Hu B, Pan C, Sun Y, Hou Z, Ye H, Zeng X (2008) Optimization of fabrication parameters to produce chitosan鈥搕ripolyphosphate nanoparticles for delivery of tea catechins. J Agric Food Chem 56:7451鈥?458
  61. Huang L, Li DQ, Lin YJ, Wei M, Evans DG, Duan X (2005) Controllable preparation of nano-MgO and investigation of its bactericidal properties. J Inorg Biochem 99:986鈥?93
  62. Huang Q, Yu H, Ru Q (2010) Bioavailability and delivery of nutraceuticals using nanotechnology. J Food Sci 75(1):R50鈥揜57
  63. Jesorka A, Orwar O (2008) Liposomes: technologies and analytical applications. Annu Rev Anal Chem 1:801鈥?32
  64. Jia X, Li Y, Cheng Q, Zhang S, Zhang B (2007) Preparation and properties of poly(vinyl alcohol)/silica nanocomposites derived from copolymerization of vinyl silica nanoparticles and vinyl acetate. Eur Polym J 43:1123鈥?131
  65. Johnston CT (2010) Probing the nanoscale architecture of clay minerals. Clay Miner 45(3):245鈥?79
  66. Jordan J, Jacob KI, Tannenbaum R, Sharaf MA, Jasiuk I (2005) Experimental trends in polymer nanocomposites鈥撯€揳 review. Mater Sci Eng A 393(1鈥?):1鈥?1
  67. Joseph T, Morrison M (2006) Nanotechnology in agriculture and food: a nanoforum report. Institute of Nanotechnology. http://www.nanoforum.org. Accessed 5 Feb 2013
  68. Jun SK, Eunye K, Kyeong NY, Jong-Ho K, Sung JP, Hu JL, So HK, Young KP, Yong HP, Cheol-Yong H, Yong-Kwon K, Yoon-Sik L, Dae HJ, Myung-Haing C (2007) Antimicrobial effects of silver nanoparticles. Nanomed Nanotechnol 3:95鈥?01
  69. Kang S, Pinault M, Pfefferle LD, Elimelech M (2007) Single-walled carbon nanotubes exhibit strong antimicrobial activity. Langmuir 23:8670鈥?673
  70. Kazner C, Wintgens T, Melin T, Baghoth S, Sharma S, Amy G (2008) Comparing the effluent organic matter removal of direct NF and powdered activated carbon/NF as high quality pretreatment options for artificial groundwater recharge. Water Sci Technol 57:821鈥?27
  71. Kiaune L, Singhasemanon N (2011) Pesticidal copper (I) oxide: environmental fate and aquatic toxicity. In: Whitacre DM (ed) Reviews of environmental contamination and toxicology, vol 213. Springer, Cham
  72. Kim JY, Il Han S, Hong S (2008) Effect of modified carbon nanotube on the properties of aromatic polyester nanocomposites. Polymer 49:3335鈥?345
  73. Kinemuchi Y, Keiichi M, Channalong S, Chu-Hyun C, Hisayuki S, Weihua J, Kiyoshi Y (2003) Nanosize powders of aluminum nitride synthesized by pulsed wire discharge. J Am Ceram Soc 86:420鈥?24
  74. Kriegel C, Arrechi A, Kit K, McClements DJ, Weiss J (2008) Fabrication, functionalization, and application of electrospun bipolymer nanofibers. Crit Rev Food Sci 48:775鈥?97
  75. Kumar R, M眉nstedt H (2005) Silver ion release from antimicrobial polyamide/silver composites. Biomaterials 26:2081鈥?088
  76. Kv铆tek L, Pan谩膷ek A, Soukupov谩 J, Kol谩艡 M, Ve膷e艡ov谩 R, Prucek R, Holecov谩 M, Zbo艡il R (2008) Effect of surfactants and polymers on stability and antibacterial activity of silver nanoparticles (NPs). J Phys Chem C 112(15):5825鈥?834
  77. Lagaron JM, Catal谩 R, Gavara R (2004) Structural characteristics defining high barrier polymeric materials. Mater Sci Technol 20:1鈥?
  78. Lan T, Bayer G (2011) Introduction to flame retardancy of polymer鈥揷lay nanocomposites. In: Mittal V (ed) Thermally stable and flame retardant polymer nanocomposites. Cambridge University Press, Cambridge, pp 161鈥?85
  79. Lavie CJ, Milani RV, Mehra MR, Ventura HO (2009) Omega-3 polyunsaturated fatty acids and cardiovascular diseases. J Am Coll Cardiol 54:585鈥?94
  80. Lee SK, Sheridan M, Mills A (2005) Novel UV-activated colorimetric oxygen indicator. Chem Mater 17(10):2744鈥?751
  81. Letchford K, Burt H (2007) A review of the formation and classification of amphiphilic block copolymer nanoparticulate structures: micelles, nanospheres, nanocapsules and polymersomes. Eur J Pharm Biopharm 65:259鈥?69
  82. Li H, Zhao X, Ma Y, Zhai G, Li L, Lou H (2008a) Enhancement of gastrointestinal absorption of quercetin by solid lipid nanoparticles. J Control Release 346:160鈥?68
  83. Li Q, Mahendra S, Lyon DY, Brunet L, Liga MV, Li D, Alvarez PJJ (2008b) Antimicrobial nanomaterials for water disinfection and microbial control: potential applications and implications. Water Res 42(18):4591鈥?602
  84. Li H, Li F, Wang L, Sheng J, Xin Z, Zhao L, Xiao H, Zheng Y, Hu Q (2009) Effect of nano-packing on preservation quality of Chinese jujube ( / Ziziphus jujuba Mill. var. / inermis (Bunge) Rehd). Food Chem 114(2):547鈥?52
  85. Liao F, Chen C, Subramanian V (2005) Organic TFTs as gas sensors for electronic nose applications. Sens Actuators B 107(2):849鈥?55
  86. Liau SY, Read DC, Pugh WJ, Furr JR, Russell AD (1997) Interaction of silver nitrate with readily identifiable groups: relationship to the antibacterial action of silver ions. Lett Appl Microbiol 25:279鈥?83
  87. Limpens J, Schr枚der FH, de Ridder CM, Bolder CA, Wildhagen MF, Oberm眉ller-Jevic UC et al (2006) Combined lycopene and vitamin E treatment suppresses the growth of PC-346C human prostate cancer cells in nude mice. J Nutr 136:1287鈥?293
  88. Lisha KP, Pradeep T (2009) Enhanced visual detection of pesticides using gold nanoparticles. J Environ Sci Health B 44:697鈥?05
  89. Lopez-Rubio A, Gavara R, Lagaron JM (2006) Bioactive packaging: turning foods into healthier foods through biomaterials. Trends Food Sci Technol 17:567鈥?75
  90. Lord JB (2008) The food industry in the United States. In: Brody AL, Lord JB (eds) Developing new food products for a changing marketplace. CRS, Boca Raton, pp 1鈥?3
  91. Ludue帽a LN, Alvarez VA, Vasquez A (2007) Processing and microstructure of PCL/clay nanocomposites. Mater Sci Eng A 460鈥?61:121鈥?29
  92. Luo PG, Stutzenberger FJ (2008) Nanotechnology in the detection and control of microorganisms. Adv Appl Microbiol 63:145鈥?81
  93. Maciejewski M, Brunner TJ, Loher SF, Stark WJ, Baiker A (2008) Phase transitions in amorphous calcium phosphates with different Ca/P ratios. Thermochim Acta 468:75鈥?0
  94. Maherani B, Arab-Tehrany E, Kheirolomoom A, Cleymand F, Linder M (2012) Influence of lipid composition on physicochemical properties of nanoliposomes encapsulating natural dipeptide antioxidant l -carnosine. Food Chem 134:632鈥?40
  95. Malinin AV, Zanishevskaja AA, Tuchin VV, Skibina YS, Silokhin IY (2012) Photonic crystal fibers for food quality analysis. In: Popp J, Drexler W, Tuchin VV, Matthews DL (eds) Biophotonics: photonic solutions for better health care, III, Proceedings of SPIE, vol 8427. SPIE, Bellingham
  96. Maness PC, Smolinski S, Blake DM, Huang Z, Wolfrum EJ, Jacoby WA (1999) Bactericidal activity of photocatalytic TiO₂ reaction: toward an understanding of its killing mechanism. Appl Environ Microbiol 65(9):4094鈥?098
  97. Mascheroni E, Capretti G, Marengo M, Iametti S, Mora L, Piergiovanni L, Bonomi F (2010) Modification of cellulose-based packaging materials for enzyme immobilization. Packag Technol Sci 23:47鈥?7
  98. Mattoso LHC, Medeiros ES, Baker AD, Avloni J, Wood DF, Orts WJ (2009) Electrically conductive nanocomposites made from cellulose nanofibrils and polyaniline. J Nanosci Nanotechnol 9:2917鈥?922
  99. McClements DJ, Decker EA, Park Y, Weiss J (2009) Structural design principles for delivery of bioactive components in nutraceuticals and functional foods. Crit Rev Food Sci Nutr 49(6):577鈥?06
  100. Mills A, Hazafy D (2009) Nanocrystalline SnO2-based, UVB-activated, colourimetric oxygen indicator. Sens Actuators B 136(2):344鈥?49
  101. Mills A, Doyle G, Peiro AM, Durrant J (2006) Demonstration of a novel, flexible, photocatalytic oxygen-scavenging polymer film. J Photochem Photobiol A 177:328鈥?31
  102. Monteiro-Riviere NA, Nemanich RJ, Inman AO, Wang YY, Riviere JE (2005) Multi-walled carbon nanotube interactions with human epidermal keratinocytes. Toxicol Lett 155(13):377鈥?84
  103. Mora-Huertas CE, Fessi H, Elaissari A (2010) Polymer-based nanocapsules for drug delivery. Int J Pharm 385:113鈥?42
  104. Morones JR, Elechiguerra JL, Camacho A, Holt K, Kouri JB, Ramirez JT, Yacaman MJ (2005) The bactericidal effect of silver nanoparticles. Nanotechnology 16:2346鈥?353
  105. Morris VJ (2006) Nanotechnology and its future in new product development. J Inst Food Sci Technol 20(3):15鈥?7
  106. M枚ssinger D, Hornung J, Lei S, De Feyter S, H枚ger S (2007) Molecularly defined shape-persistent 2D oligomers: the covalent-template approach to molecular spoked wheels. Angew Chem Int Ed 46:6802鈥?806
  107. Motlagh NV, Mosavian MTH, Mortazavi SA, Tamizi A (2012) Beneficial effects of polyethylene packages containing micrometer-sized silver particles on the quality and shelf life of dried barberry ( / Berberis vulgaris). J Food Sci 77:E2鈥揈9
  108. Mozafari MR, Flanagan J, Matia-Merino L, Awati A, Omri A, Suntres ZE, Singh H (2006) Recent trends in the lipid-based nanoencapsulation of antioxidants and their role in foods. J Sci Food Agric 86:2038鈥?045
  109. Mozafari MR, Johnson C, Hatziantoniou S, Demetzos C (2008) Nanoliposomes and their applications in food nanotechnology. J Liposome Res 18:309鈥?27
  110. M眉ller RH, Petersen RD, Hommoss A, Pardeike J (2007) Nanostructured lipid carriers (NLC) in cosmetic dermal products. Adv Drug Deliv Rev 59:522鈥?30
  111. M眉ller RH, Shegokar R, Keck CM (2011) 20聽years of lipid nanoparticles (SLN and NLC): present state of development and industrial applications. Curr Drug Discov Technol 8:207鈥?27
  112. Nielsen LE (1967) Models for the permeability of filled polymer systems. J Macromol Sci 1(5):929鈥?42
  113. Omri A, Agnew BJ, Patel GB (2003) Short-term repeated-dose toxicity profile of archaeosomes administered to mice via intravenous and oral routes. Int J Toxicol 22:9鈥?3
  114. Patel GB, Agnew BJ, Deschatelets L, Fleming LP, Sprott GD (2000) In vitro assessment of archaeosome stability for developing oral delivery systems. Int J Pharm 194:39鈥?9
  115. Peshev D, Peeva LG, Peev G, Baptista IIR, Boam AT (2011) Application of organic solvent nanofiltration for concentration of antioxidant extracts of rosemary ( / Rosmarinus officiallis L.). Chem Eng Res Des 89:318鈥?27
  116. Petersson L, Oksman K (2006) Biopolymer based nanocomposites: comparing layeredsilicates and microcrystalline cellulose as nanoreinforcement. Compos Sci Technol 66:2187鈥?196
  117. Podsiadlo P, Choi SY, Shim B, Lee J, Cuddihy M, Kotov NA (2005) Molecularly engineered nanocomposites: layer-by-layer assembly of cellulose nanocrystals. Biomacromolecules 6:2914鈥?918
  118. Prashantha K, Soulestin J, Lacrampe MF, Krawczak P, Dupin G, Claes M (2009) Masterbatch-based multi-walled carbon nanotube filled polypropylene nanocomposites: assessment of rheological and mechanical properties. Compos Sci Technol 69(11鈥?2):1756鈥?763
  119. Pursiainen OLJ, Baumberg JJ, Winkler H, Viel B, Spahn P, Ruhl T (2007) Nanoparticle-tuned structural color from polymer opals. Opt Express 15:9553鈥?561
  120. Qhobosheane M, Santra S, Zhang P, Tan WH (2001) Biochemically functionalized silica nanoparticles. Analyst 126(8):1274鈥?278
  121. Qi LF, Xu ZR, Jiang X, Hu C, Zou X (2004) Preparation and antibacterial activity of chitosan nanoparticles. Carbohydr Res 339:2693鈥?700
  122. Qiao R, Brinson LC (2009) Simulation of interphase percolation and gradients in polymer nanocomposites. Compos Sci Technol 69(3鈥?):491鈥?99
  123. Quintanar D, All茅mann E, Fessi H, Doelker E (1998) Preparation techniques and mechanisms of formation of biodegradable nanoparticles from preformed polymers. Drug Dev Ind Pharm 24:1113鈥?128
  124. Quintanilla-Carvajal MX, Camacho-D铆az BH, Meraz-Torres LS, Chanona-P茅rez JJ, Alamilla-Beltr谩n L, Jimen茅z-Aparicio A, Guti茅rrez-L贸pez GF (2010) Nanoencapsulation: a new trend in food engineering processing. Food Eng Rev 2(1):39鈥?0
  125. Rabea EI, Badawy ME, Stevens CV, Smagghe G, Steurbaut W (2003) Chitosan as antimicrobial agent: applications and mode of action. Biomacromolecules 4(6):1457鈥?465
  126. Radtchenko IL, Sukhorukov GB, M枚hwald H (2002) Anovel method for encapsulationof poorly water-soluble drugs: precipitation in polyelectrolyte multilayer shells. Int J Pharm 242:219鈥?23
  127. Rajesh, Takashima W, Kaneto K (2004) Amperometric phenol biosensor based on covalent immobilization of tyrosinase onto an electrochemically prepared novel copolymer poly( / N-3-aminopropylpyrrole-copolymer) film. Sens Actuators B 102:271鈥?77
  128. Reddy MP, Venugopal A, Subrahmanyam M (2007) Hydroxyapatite-supported Ag TiO₂ as / Escherichia coli disinfection photocatalyst. Water Res 41:379鈥?86
  129. Rhim JW, Ng PKW (2007) Natural biopolymer-based nanocomposite films for packaging applications. Crit Rev Food Sci Nutr 47(4):411鈥?33
  130. Robertson JMC, Robertson PKJ, Lawton LA (2005) A comparison of the effectiveness of TiO₂ photocatalysis and UVA photolysis for the destruction of three pathogenic micro-organisms. J Photochem Photobiol A 175(1):51鈥?6
  131. Robinson DKR, Morrison MJ (2010) Nanotechnologies for food packaging: reporting the science and technology research trends: report for the ObservatoryNANO. http://www.observatorynano.eu/project/filesystem/files/Food%20Packaging%20Report%202010%20DKR%20Robinson.pdf. Accessed 15 Sep 2013
  132. Ruxton CHS, Reed SC, Simpson MJA, Millington KJ (2004) The health benefits of omega-3 polyunsaturated fatty acids: a review of the evidence. J Hum Nutr Diet 17:449鈥?59
  133. Sadtler V, Rondon-Gonzalez M, Acrement A, Choplin L, Marie E (2010) PEO-covered nanoparticles by emulsion inversion point (eip) method. Macromol Rapid Commun 31(11):998鈥?002
  134. Sadurn铆 N, Solans C, Azemar N, Garc铆a-Celma MJ (2005) Studies on the formation of O/W nano-emulsions, by low-energy emulsification methods, suitable for pharmaceutical applications. Eur J Pharm Sci 26(5):438鈥?45
  135. Sanchez-Garcia MD, Gimenez E, Lagaron JM (2008) Morphology and barrier properties of solvent cast composites of thermoplastic biopolymers and purified cellulose fibers. Carbohydr Polym 71:235鈥?44
  136. Sanguansri P, Augustin MA (2006) Nanoscale materials development鈥攁 food industry perspective. Trends Food Sci Technol 17(10):547鈥?56
  137. Scampicchio M, Ballabio D, Arecchi A, Cosio SM, Mannino S (2008) Amperometric electronic tongue for food analysis. Microchim Acta 163:11鈥?1
  138. Sharma AL, Singhal R, Kumar A, Rajesh, Pande KK, Malhotra BD (2004) Immobilization of glucose oxidase onto electrochemically prepared poly(aniline-co-fluoroaniline) films. J Appl Polym Sci 91(6):3999鈥?006
  139. Shin MJ, Lee JH, Jang Y, Lee-Kim YC, Park E, Kim KM et al (2005) Micellar phytosterols effectively reduce cholesterol absorption at low doses. Ann Nutr Metab 49:346鈥?51
  140. Silva HD, Cerqueira M脗, Vicente AA (2012) Nanoemulsions for food applications: development and characterization. Food Bioprocess Technol 5:854鈥?67
  141. Singh RP (2000) Scientific principles of shelf-life evaluation. In: Man D, Jones A (eds) Shelf-life evaluation of foods. Aspen, New York, pp 2鈥?2. ISBN 978-0834217829
  142. Soares NFF, Hotchkiss JH (1998) Naringinase immobilization in packaging films for reducing naringin concentration in grapefruit juice. J Food Sci 63:61鈥?5
  143. Sondi I, Salopek-Sondi B (2004) Silver nanoparticles as antimicrobial agent: a case study on / E. coli as a model for Gram-negative bacteria. J Colloid Interface Sci 275:177鈥?82
  144. Sozer N, Kokini JL (2009) Nanotechnology and its applications in the food sector. Trends Biotechnol 27:82鈥?9
  145. Srinivas PR, Martin P, Tania QV, Qingrong H, Josef LK, Etta S, Hongda C, Charles MP, Karl EF, McDade-Ngutter C, Van H, Pamela S-R, Nancy M, Joseph MB, Johanna D, John M, Sharon AR (2010) Nanotechnology research: applications in nutritional sciences. J Nutr 140:119鈥?24
  146. Stark WJ, Pratsinis SE (2002) Aerosol flame reactors for manufacture of nanoparticles. Powder Technol 126:103鈥?08
  147. Sun J, Yao JY, Huang SX, Long X, Wang JB, Garc铆a E (2009) Antioxidant activity of polyphenol and anthocyanin extracts from fruits of / Kadsura coccinea (Lem.) AC Smith. Food Chem 117:276鈥?81
  148. Tadros T, Izquierdo P, Esquena J, Solans C (2004) Formation and stability of nano-emulsions. Adv Colloid Interface Sci 108鈥?09:303鈥?18
  149. Tallury P, Malhotra A, Byrne ML, Santra S (2010) Nanobioimaging and sensing of infectious diseases. Adv Drug Deliv Rev 62:424鈥?37
  150. Tan W, Zhang Y, Szeto YS, Liao L (2008) A novel method to prepare chitosan/montmorillonite nanocomposites in the presence of hydroxyl-aluminum olygomeric cations. Compos Sci Technol 68(14):2917鈥?921
  151. Tang C, Liu H (2008) Cellulose nanofiber reinforced poly (vinyl alcohol) composite film with high visible light transmittance. Compos A Appl Sci Manuf 39(10):1638鈥?643
  152. Tang DW, Yu SH, Ho YC, Huang BQ, Tsai GJ, Hsieh HY et al (2013) Characterization of tea catechins-loaded nanoparticles prepared from chitosan and an edible polypeptide. Food Hydrocoll 30:33鈥?1
  153. Tankhiwale R, Bajpai SK (2009) Graft co-polymerization onto cellulose-based filter paper and its further development as silver nanoparticles-loaded antibacterial food packaging material. Colloids Surf, B 69(2):164鈥?68
  154. Taylor TM, Davidson PM, Bruce BD, Weiss J (2005) Liposomal nanocapsules in food science and agriculture. Crit Rev Food Sci Nutr 45:587鈥?05
  155. Ullmann M, Friedlander SK, Schmidt-Ott A (2002) Nanoparticle formation by laser ablation. J Nanopart Res 4:499鈥?09
  156. Uyama H, Kuwabara M, Tsujimoto T, Nakano M, Usuki A, Kobayashi S (2003) Green nanocomposite from renewable resources: plant oil-clay hybrid materials. Chem Mater 15:2492鈥?494
  157. Vegas R, Moure A, Dom铆nguez H, Paraj贸 JC, Alvarez JR, Luque S (2008) Evaluation of ultra- and nanofiltration for refining soluble products from rice husk xylan. Bioresour Technol 99:5341鈥?351
  158. Vladimiriov V, Betchev C, Vassiliou A, Papageorgiou G, Bikiaris D (2006) Dynamic mechanical and morphological studies of isotactic polypropylene/fumed silica nanocomposites with enhanced gas barrier properties. Compos Sci Technol 66:2935鈥?944
  159. Walde P, Ichikawa S (2001) Enzymes inside lipid vesicles: preparation, reactivity and applications. Biomol Eng 18:143鈥?77
  160. Wang XY, Gu F, Yin F, Tu YF (2012) Rapid detection of microorganisms in milk using an in-situ prepared nano-functionalized gold electrode. Chin J Anal Chem 40:657鈥?62
  161. Warheit DB, Laurence BR, Reed KL, Roach DH, Reynolds GAM, Webb TR (2004) Comparative pulmonary toxicity assessment of single-wall carbon nanotubes in rats. Toxicol Sci 77:117鈥?25
  162. Weiss J, Takhistov P, McClements DJ (2006) Functional materials in food nanotechnology. J Food Sci 71(9):107鈥?16
  163. Weiss J, Decker EA, McClements DJ, Kristbergsson K, Helgason T, Awad T (2008) Solid lipid nanoparticles as delivery systems for bioactive food components. Food Biophys 3(2):146鈥?54
  164. Wu Y, Luo Y, Wang Q (2012) Antioxidant and antimicrobial properties of essential oils encapsulated in zein nanoparticles prepared by liquid鈥搇iquid dispersion method. LWT Food Sci Technol 48:283鈥?90
  165. Xiao-e L, Green ANM, Haque SA, Mills A, Durrant JR (2004) Light-driven oxygen scavenging by titania/polymer nanocomposite films. J Photochem Photobiol A 162:253鈥?59
  166. Xiong HG, Tang SW, Tang HL, Zou P (2008) The structure and properties of a starch-based biodegradable film. Carbohydr Polym 71:263鈥?68
  167. Yin LJ, Chu BS, Kobayashi I, Nakajima M (2009) Performance of selected emulsifiers and their combinations in the preparation of [beta]-carotene nanodispersions. Food Hydrocoll 23(6):1617鈥?622
  168. Yu H, Xu X, Chen X, Lu T, Zhang P, Jing X (2007) Preparation and antibacterial effects of PVA-PVP hydrogels containing silver nanoparticles. J Appl Polym Sci 103:125鈥?33
  169. Zarif L (2003) Nanocochleate cylinders for oral & parenteral delivery of drugs. J Liposome Res 13:109鈥?10
  170. Zeng H, Gao C, Wang Y, Watts PCP, Kong H, Cui X, Yan D (2006) In situ polymerization approach to multiwalled carbon nanotubes-reinforced nylon 1010 composites: mechanical properties and crystallization behavior. Polymer 47:113鈥?22
  171. Zhang L, Zheng Y, Chow MSS, Zuo Z (2004) Investigation of intestinal absorption and disposition of green tea catechins by CaCO-2 monolayer model. Int J Pharm 287:1鈥?2
  172. Zhou X, Shin E, Wang KW, Bakis CE (2004) Interfacial damping characteristics of carbon nanotube-based composites. Compos Sci Technol 64(15):2425鈥?437
  173. Zimet P, Rosenberg D, Livney YD (2011) Re-assembled casein micelles and casein nanoparticles as nano-vehicles for omega-3 polyunsatturated fatty acids. Food Hydrocoll 25(5):1270鈥?276
  
• 作者单位：Shivendu Ranjan (1)
  Nandita Dasgupta (1)
  Arkadyuti Roy Chakraborty (1)
  S. Melvin Samuel (1)
  Chidambaram Ramalingam (1)
  Rishi Shanker (2)
  Ashutosh Kumar (2)
  
  1. Instrumental and Food Analysis Laboratory, Industrial Biotechnology Division, School of Bio Sciences and Technology, VIT University, Vellore, Tamil Nadu, India
  2. Institute of Life Sciences, School of Science and Technology, Ahemdabad University, Ahemdabad, Gujrat, India
  
• ISSN：1572-896X

文摘

Nanomaterials have gained importance in various fields of science, technology, medicine, colloid technologies, diagnostics, drug delivery, personal care applications and others due to their small size and unique physico-chemical characteristic. Apart from above mentioned area, it is also extensively being used in food sector specifically in preservation and packaging. The future applications in food can also be extended to improve the shelf life, food quality, safety, fortification and biosensors for contaminated or spoiled food or food packaging. Different types and shapes of nanomaterials are being employed depending upon the need and nature of the food. Characterisation of these nanomaterials is essential to understand the interaction with the food matrix and also with biological compartment. This review is focused on application of nanotechnology in food industries. It also gives insight on commercial products in market with usage of nanomaterials, current research and future aspects in these areas. Currently, they are being incorporated into commercial products at a faster rate than the development of knowledge and regulations to mitigate potential health and environmental impacts associated with their manufacturing, application and disposal. As nanomaterials are finding new application every day, care should be taken about their potential toxic effects.