References
- Benichou A, Aserin A, Garti N. Double emulsions stabilized with hybrids of natural polymers for entrapment and slow release of active matters. Advances in Colloid and Interface Science 2004; 108–109: 29–41
- Bocanegra R, Loscertales IG, Gaonkar A, Pechack D, Marquez M, Barrero A. Microencapsulation of food grade substances using an electrospray technique. Journal of Food Science 2004, submitted
- Chandrasekhar S. Hydrodynamic and hydromagnetic stability. Dover, New York 1961
- Chauhan A, Maldarelli C, Papageorgiou DT, Rumschitzki DS. Temporal instability of compound threads and jets. Journal of Fluid Mechanics 2000; 420: 1–25
- Freitas S, Merkle HP, Gander B. Ultrasonic atomization into reduced pressure atmosphere-envisaging aseptic spray-drying for microencapsulation. Journal of Controlled Release 2004; 95: 185–195
- Gañán-Calvo AM. Generation of steady microthreads and micron-sized monodisperse sprays in gas streams. Physical Review Letters 1998; 80: 285–288
- Gañán-Calvo AM, Barrero A. A novel pneumatic technique to generate steady capillary microjets. Journal of Aerosol Science 1999; 30: 117–125
- Garti N. Double emulsions – scope, limitations and new achievements. Colloids and Surfaces A: Physicochemical and Engineering Aspects 1997; 123–124: 233–246
- Gordillo JM, Perez-Saborid M, Gañán-Calvo AM. Linear stability of co-flowing liquid gas jets. Journal of Fluid Mechanics 2001; 448: 23–51
- Hardas N, Danviriyakul S, Foley JL, Nawar WW, Chinachoti P. Accelerated stabilities studies of microencapsulated anhydrous milk fat. Lebensmittel Wissenschaft und Technologie 2000; 33: 506–513
- Lasheras JC, Hopfinger EJ. Liquid jet instability and atomization in a coaxial gas stream. Annals of Reviews in Fluid Mechanics 2000; 32: 275–308
- Lee SJ, Rosenberg M. Whey protein-based microcapsules prepared by double emulsification and heat gelation. Lebensmittel Wissenschaft und Technologie 2000; 33: 80–88
- Leib SJ, Goldstein ME. The generation of capillary instabilities on a liquid jet. Journal of Fluid Mechanics 1986; 168: 479–500
- Lopez-Herrera JM, Barrero A, Lopez A, Loscertales IG, Marquez M. Coaxial jets generated from electrified Taylor cones. Scaling laws. Journal of Aerosol Science 2003; 34: 535–552
- Lopez-Herrera JM, Gañán-Calvo AM, Perez-Saborid M. One-dimensional simulation of the break up of capillary jets of conducting liquids. Application to EHD spraying. Journal of Aerosol Science 1999; 30: 895–912
- Loscertales IG, Barrero A, Guerrero I, Cortijo R, Marquez M, Gañán-Gañán-Calvo AM. Micro/nano encapsulation via electrified coaxial liquid jets. Science 2002; 295: 1695–1698
- Meseguer J, Sanz A. Numerical and experimental study of the dynamics of axisymmetric slender liquid bridges. Journal of Fluid Mechanics 1985; 153: 83
- Rayleigh L. On the instabilities of jets. Proceedings of the London Mathematics Society 1879; 10: 4–13
- Rutland DF, Jameson GJ. Theoretical prediction of the sizes of drops in the breakup of capillary jets. Chemical and Engineering Sciences 1970; 25: 1689
- Rutland DF, Jameson GJ. A nonlinear effect in the capillary instability of liquid jets. Journal of Fluid Mechanics 1971; 46: 267
- Shkadow VD, Sisoev GM. Instability of a two-layer capillary jet. International Journal of Multiphase Flow 1996; 22: 363–377
- Sugiura S, Nakajima M, Yamamoto K, Iwamoto S, Oda T, Satake M, Seki M. Preparation characteristics of water-in-oil-in-water multiple emulsions using microchannel emulsification. Journal of Colloid and Interface Science 2004; 270: 221–228
- Tomotika S. On the instability of a cylindrical thread of a viscous liquid surrounded by another viscous liquid. Proceedings of the Royal Society of London A 1935; 150: 322
- Yeo Y, Basaran OA, Park K. A new process for making reservoir-type microcapsules using ink-jet technology and interfacial phase separation. Journal of Controlled Release 2003; 93: 161–173
- Yoshii H, Soottitantawat A, Liu XD, Atarashi T, Furuta T, Aishima S, Ohgawara M, Linko P. Flavor release from spray-dried maltodextrin/gum arabic or soy matrices as a function of storage relative humidity. Innovative Food Science and Emerging Technologies 2001; 2: 55–61