http://orcid.org/0000-0003-3191-0210
References
- Arun, P., et al., 2011. Evaluation of hot melt coating as taste masking tool. International research journal of pharmacy, 2, 169–172.
- Bento, M.H.L., et al., 2013. Essential oils and their use in animal feeds for monogastric animals-effects on feed quality, gut microbiota, growth performance and food safety: a review. Veterinarni medicina, 58 (No. 9), 449–458.
- Blake, A., and Attwool, P., 1998. Particulate flavor compositions and process to prepare same. Canadian Patent 2177, 384C.
- Bricknell, J., and Hartel, R.W., 1998. Relation of fat bloom in chocolate to polymorphic transition of cocoa butter. Journal of the American oil chemists' society, 75 (11), 1609–1615.
- De Graef, V., et al., 2005. Prediction of migration fat bloom on chocolate. European journal of lipid science and technology, 107 (5), 297–306.
- Dewettinck, K., and Huyghebaert, A., 1999. Fluidized bed coating in food technology. Trends in food science & technology, 10, 163–168.
- Dolçà, C., et al., 2015. Microencapsulation of rosemary essential oil by co-extrusion/gelling using alginate as a wall material. Journal of encapsulation and adsorption sciences, 05 (03), 121–130.
- El Asbahani, A., et al., 2015. Essential oils: from extraction to encapsulation. International journal of pharmaceutics, 483 (1-2), 220–243.
- Gibbs, F., et al., 1999. Encapsulation in the food industry: a review. International journal of food sciences and nutrition, 50 (3), 213–224.
- Gottschalk, P., et al., 2018. Formation of essential oil containing microparticles comprising a hydrogenated vegetable oil matrix and characterisation thereof. Journal of microencapsulation, 1, 26.
- Himawan, C., Starov, V., and Stapley, A., 2006. Thermodynamic and kinetic aspects of fat crystallization. Advances in colloid and interface science, 122 (1-3), 3–33.
- Jozwiakowski, M.J., Jones, D.M., and Franz, R.M., 1990. Characterization of a hot-melt fluid bed coating process for fine granules. Pharmaceutical research, 07 (11), 1119–1126.
- Jyothi, N.V.N., et al., 2010. Microencapsulation techniques, factors influencing encapsulation efficiency. Journal of microencapsulation, 27 (3), 187–197.
- Jyothi, S., et al., 2012. Microencapsulation: a review. International journal of pharmacy and biological sciences, 3, 509–531.
- Kausadikar, S., Gadhave, A.D., and Waghmare, J., 2015. Microencapsulation of lemon oil by spray drying and its application in flavour tea. Advances in applied science research, 6, 69–78.
- Lopes, D.G., et al., 2015. Role of lipid blooming and crystallite size in the performance of highly soluble drug-loaded microcapsules. Journal of pharmaceutical sciences, 104 (12), 4257–4265.
- Lumay, G., et al., 2012. Measuring the flowing properties of powders and grains. Powder technology, 224, 19–27.
- Martins, I.M., et al., 2009. Microencapsulation of thyme oil by coacervation. Journal of microencapsulation, 26 (8), 667–675.
- Mayama, H., 2009. Blooming theory of tristearin. Soft matter, 5 (4), 856–859.
- Miyasaki, E.K., et al., 2016. Acceleration of polymorphic transition of cocoa butter and cocoa butter equivalent by addition of d‐limonene. European journal of lipid science and technology, 118 (5), 716–723.
- Murugesan, G.R., et al., 2015. Phytogenic feed additives as an alternative to antibiotic growth promoters in broiler chickens. Frontiers in veterinary science, 2, 21.
- Nassu, R.T., and Gonçalves, L.A.G., 1999. Determination of melting point of vegetable oils and fats by differential scanning calorimetry (DSC) technique. Grasas y aceites, 50 (1), 16–21.
- Nedovic, V., et al., 2011. An overview of encapsulation technologies for food applications. Procedia food science, 1, 1806–1815.
- Okuro, P.K., de Matos Junior, F.E., and Favaro-Trindade, C.S., 2013. Technological challenges for spray chilling encapsulation of functional food ingredients. Food technology and biotechnology, 51, 171–182.
- Rigolle, A., et al., 2016. Isothermal crystallization behavior of cocoa butter at 17 and 20°C with and without limonene. Journal of agricultural and food chemistry, 64 (17), 3405–3416.
- Sato, K., 2001. Crystallization behaviour of fats and lipids—a review. Chemical engineering science, 56 (7), 2255–2265.
- Schoenitz, M., et al., 2014. Controlled polymorphic transformation of continuously crystallized solid lipid nanoparticles in a microstructured device: a feasibility study. European journal of pharmaceutics and biopharmaceutics, 86 (3), 324–331.
- Suresh, G., et al., 2018. Alternatives to antibiotics in poultry feed: molecular perspectives. Critical reviews in microbiology, 44 (3), 318–335.
- Takeuchi, M., Ueno, S., and Sato, K., 2002. Crystallization kinetics of polymorphic forms of a molecular compound constructed by SOS (1, 3-distearoyl-2-oleoyl-sn-glycerol) and SSO (1, 2-distearoyl-3-oleoyl-rac-glycerol). Food research international, 35 (10), 919–926.
- Turasan, H., Sahin, S., and Sumnu, G., 2015. Encapsulation of rosemary essential oil. LWT-Food science and technology, 64 (1), 112–119.
- Vervaeck, A., et al., 2013. Prilling of fatty acids as a continuous process for the development of controlled release multiparticulate dosage forms. European journal of pharmaceutics and biopharmaceutics, 85 (3), 587–596.
- Yang, J., and Ciftci, O.N., 2016. Development of free-flowing peppermint essential oil-loaded hollow solid lipid micro- and nanoparticles via atomization with carbon dioxide. Food research international, 87, 83–91.
- Zeng, Z., et al., 2015. Essential oil and aromatic plants as feed additives in non-ruminant nutrition: a review. Journal of animal science and biotechnology, 6 (1), 7.
- Ziegleder, G., and Schwingshandl, I., 1998. Kinetics of fat migration within chocolate products. Part III: Fat bloom. Lipid – Fett, 100 (9), 411–415.