References
- Fredrick, E.; Moens, K.; Heyman, B.; Fischer, S.; Van der Meeren, P.; Dewettinck, K. Monoacylglycerols in Dairy Recombined Cream: I. The Effect on Milk Fat Crystallization. Food Research International 2013, 51(2), 892–898.
- van Lent, K.; Le, C.T.; Vanlerberghe, B.; Van der Meeren, P. Effect of Formulation on the Emulsion and Whipping Properties of Recombined Dairy Cream. International Dairy Journal 2008, 18(10), 1003–1010.
- Wu, S.; Wang, G.; Lu, Z.; Li, Y.; Zhou, X.; Chen, L.; Zhang, L. Effects of Glycerol Monostearate and Tween 80 on the Physical Properties and Stability of Recombined Low-Fat Dairy Cream. Dairy Science & Technology 2016, 96(3), 377–390.
- Fredrick, E.; Walstra, P.; Dewettinck, K. Factors Governing Partial Coalescence in Oil-in-Water Emulsions. Advances in Colloid & Interface Science 2010, 153(1), 30–42.
- Tcholakova, S.; Denkov, N.D.; Ivanov, I.B.; Campbell, B. Coalescence Stability of Emulsions Containing Globular Milk Proteins. Advances in Colloid & Interface Science 2006, 123–126(21), 259–293.
- Ye, A.; Singh, H.; Taylor, M.W.; Anema, S. Characterization of Protein Components of Natural and Heat-Treated Milk Fat Globule Membranes. International Dairy Journal 2002, 12(4), 393–402.
- Keenan, T.W.; Mather, I.H. Intracellular Origin of Milk Fat Globules and the Nature of the Milk Fat Globule Membrane; Springer: New York, US, 2006.
- Rombaut, R.; Camo, J.V.; Dewettinck, K. Analysis of Phospho- and Sphingolipids in Dairy Products by a New HPLC Method. Journal of Dairy Science 2005, 88(2), 482–488.
- Singh, H. The Milk fat Globule Membrane—A Biophysical System for Food Applications. Current Opinion in Colloid & Interface Science 2006, 11(s 2–3), 154–163.
- Bylund, G. Dairy Processing Handbook; Tetra Pak Processing Systems AB: Lund, 2003.
- Szuhaj, B.F. Lecithins: Sources, Manufacture & Uses; American Oil Chemists’ Society: Urbana, US, 1989.
- Whitehurst, R.J. Emulsifiers in Food Technology; John Wiley & Sons: Oxford, UK, 2008.
- Bylaite, E.; Nylander, T.; Venskutonis, R.; Jönsson, B. Emulsification of Caraway Essential Oil in Water by Lecithin and β-Lactoglobulin: Emulsion Stability and Properties of the Formed Oil–Aqueous Interface. Colloids & Surfaces B Biointerfaces 2001, 20(4), 327–340.
- Yamamoto, Y.; Araki, M. Effects of Lecithin Addition in Oil or Water Phase on the Stability of Emulsions Made with Whey Proteins. Bioscience Biotechnology & Biochemistry 1997, 61(11), 1791–1795.
- Mccrae, C.H.; Muir, D.D. Heat Stability of Recombined Milk: Influence of Lecithins on the heat Coagulation Time-pH Profile. Journal of Dairy Research 1992, 59(2), 177–185.
- Hardy, E.E.; Sweetsur, A.W.; West, I.G.; Muir, D.D. Heat Stability of Concentrated Milk: Enhancement of Initial Heat Stability by Incorporation of Food Grade Lecithin. International Journal of Food Science & Technology 1985, 20(1), 97–105.
- Singh, H.; Sharma, R.; Tokley, R.P. Influence of Incorporation of Soya Lecithin into Skim Milk Powder on the Heat Stability of Recombined Evaporated Milk. Australian Journal of Dairy Technology 1992, 47(1), 33.
- Dickinson E, Yamamoto Y. Effect of Lecithin on the Viscoelastic Properties of β-Lactoglobulin-Stabilized Emulsion Gels. Food Hydrocolloids 1996, 10(3), 301–307.
- Mcsweeney, S.L.; Healy, R.; Mulvihill, D.M. Effect of Lecithin and Monoglycerides on the Heat Stability of a Model Infant Formula Emulsion. Food Hydrocolloids 2008, 22(5), 888–898.
- Sobisch, T.; Lerche, D. Thickener Performance Traced by Multisample Analytical Centrifugation. Colloids & Surfaces A Physicochemical & Engineering Aspects 2008, 331(1–2), 114–118.
- Garca-Moreno, P.J.; Anna, F.H.; Jacobsen, C. Influence of Casein-Phospholipid Combinations as Emulsifier on the Physical and Oxidative Stability of Fish Oil-in-Water Emulsions. Journal of Agricultural & Food Chemistry 2014, 62(5), 1142–1152.
- Ye, A.; Srinivasan, M.; Singh, H. Influence of NaCl Addition on the Properties of Emulsions Formed with Commercial Calcium Caseinate. Food Chemistry 2000, 69(3), 237–244.
- Tadros, T. Application of Rheology for Assessment and Prediction of the Long-Term Physical Stability of Emulsions. Advances in Colloid and Interface Science 2004, 108, 227–258.
- McClements, D.J.; Rao, J. Food-Grade Nanoemulsions: Formulation, Fabrication, Properties, Performance, Biological Fate, and Potential Toxicity. Critical Reviews in Food Science & Nutrition 2011, 51(4), 285–330.
- Truong, T.; Bansal, N.; Sharma, R.; Palmer, M.; Bhandari, B. Effects of Emulsion Droplet Sizes on the Crystallisation of Milk Fat. Urology 2014, 66(66), 397–401.
- Rousseau, D. Fat Crystals and Emulsion Stability—A Review. Food Research International 2000, 33(33), 3–14.
- Wiacek, A.E.; Adryanczyk, E. Interfacial Properties of Phosphatidylcholine-based Dispersed Systems. Industrial & Engineering Chemistry Research 2015, 54(25), 6489–6496.
- Elwell, M.W.; Roberts, R.F.; Coupland, J.N. Effect of Homogenization and Surfactant Type on the Exchange of Oil between Emulsion Droplets. Food Hydrocolloids 2004, 18(3), 413–418.
- Mortimer, R.G. Physical Chemistry; Elsevier LTD: Oxford, 2008.
- Rosen, M.J.; Kunjappu, J.T. Surfactants and Interfacial Phenomena; Wiley: Hoboken, US, 2012.
- Sherman, P. Emulsion Science; Academic Press: New York, US, 1968.
- Van Aken, G.A.; Zoet, F.D. Coalescence in Highly Concentrated Coarse Emulsions. Langmuir 2000, 16(18), 7131–7138.
- Yuan, F.; Dalgleish, D.G. Casein Adsorption on the Surfaces of Oil-in-Water Emulsions Modified by Lecithin. Colloids & Surfaces B Biointerfaces 1993, 1(6), 357–364.
- Dickinson,E.; Rolfe, S.E.; Dalgleish, D.G. Competitive Adsorption in Oil-in-Water Emulsions Containing α-Lactalbumin and β-Lactoglobulin. Food Hydrocolloids 1989, 3(3), 193–203.
- Murray, B.S.; Cros, L. Adsorption of β-Lactoglobulin and β-Casein to Metal Surfaces and their Removal by a Non-Ionic Surfactant, as Monitored via a Quartz Crystal Microbalance. Colloids & Surfaces B Biointerfaces 1998, 10(4), 227–241.
- Brown, E.M.; Carroll, R.J.; Pfeffer, P.E. Complex Formation in Sonicated Mixtures of β-Lactoglobulin and Phosphatidylcholine. Lipids 1983, 18(2), 111–118.
- Hu, M.; McClements, D.J.; Decker, E.A. Lipid Oxidation in Corn Oil-in-Water Emulsions Stabilized by Casein, Whey Protein Isolate, and Soy Protein Isolate. Journal of Agricultural & Food Chemistry 2003, 51(6), 1696–1700.
- Wang, G.; Wang, T. Oxidative Stability of Egg and Soy Lecithin as Affected by Transition Metal Ions and pH in Emulsion. Journal of Agricultural & Food Chemistry 2008, 56(23), 11424–11431.
- Jourdain, L.; Leser, M.E.; Schmitt, C.; Michel, M.; Dickinson, E. Stability of Emulsions Containing Sodium Caseinate and Dextran Sulfate: Relationship to Complexation in Solution. Food Hydrocolloids 2008, 22(4), 647–659.
- Mcsweeney, S.L.; Healy, R.; Mulvihill, D.M. Effect of Lecithin And Monoglycerides on the Heat Stability of a Model Infant Formula Emulsion. Food Hydrocolloids 2008, 22(5), 888–898.
- Goff, H.D.; Kinsella, J.E.; Jordan, W.K. Influence of Various Milk Protein Isolates on Ice Cream Emulsion Stability. Journal of Dairy Science 1989, 72(2), 385–397.
- Britten, M.; Giroux, H.J. Emulsifying Properties of Whey Protein and Casein Composite Blends. Journal of Dairy Science 1991, 74(10), 3318–3325.
- Cornec, M.; Wilde, P.J.; Gunning, P.A.; Mackie, A.R.; Husband, F.A.; Parker, M.L.; Clark, D.C. Emulsion Stability as Affected by Competitive Adsorption between an Oil-Soluble Emulsifier and Milk Proteins at the Interface. Journal of Food Science 1997, 63(1), 39–43.
- Mackie, A.; Wilde, P. The Role of Interactions in Defining the Structure of Mixed Protein–Surfactant Interfaces. Advances in Colloid & Interface Science 2006, 117(1), 3–13.
- Chen, J.; Yan, S.; Hu, J.; Yuan, J. A Study on the Properties of Microcrystalline Cellulose Gel. Journal of Cellulose Science & Technology 1994, 2, 1–6.
- Kristensen, A.; Nylander, T.; Paulsson, M.; Carlsson, A. Calorimetric Studies of Interactions between β-Lactoglobulin and Phospholipids in Solutions. International Dairy Journal 1997, 7(1), 87–92.
- Cheng, J.; Ma, Y.; Li, X.; Yan, T.; Cui, J. Effects of Milk Protein-Polysaccharide Interactions on the Stability Of Ice Cream Mix Model Systems. Food Hydrocolloids 2015, 45(45), 327–336.
- Perez, A.A.; Carrara, C.R.; Sanchez, C.C.; Patino, J.M.R.; Santiago, L.G. Interactions between Milk Whey Protein and Polysaccharide in Solution. Food Chemistry 2009, 116(1), 104–113.
- Otzen, D. Protein-Surfactant Interactions: A Tale of Many States. Biochimica et Biophysica Acta 2011, 1814(5), 562–591.