Abstract
Recent trends in preservation of processed foods involve the use of natural compounds, rather than chemically synthesized additives, to simultaneously confer antimicrobial properties and prevent fat oxidation. In this regard, black pepper essential oils, due to its diversity in biological activities, have been increasingly popular. The compounds are often used in relatively low amounts and in the form of nanoparticles to permit well blending into foods or uniform dispersion on the surface of fresh meat. The purpose of this study is to determine experimental parameters of a nano‐emulsion formation process from black pepper essential oil via the phase inversion temperature (PIT) technique. The study results showed that the system achieved the optimal nano‐emulsion under following condition: the ratio by weight of water: Tween‐80: oil = 86:9.7:4.3, the stirring speed of nano‐emulsions at 500 rpm for 45 min (heating at 75°C for 30 min and then rapidly cooling at 5°C for 15 min).
Highlights
Black pepper (Piper nigrum L., Piperaceae family) is one of the most popular spices globally
Black pepper essential oil appears as a liquid with the color varying from colorless to greenish and has a familiar peppery aroma
Average diameters and polydispersity (PDI) indices of emulsions and nano-emulsions were determined by the Dynamic light scattering (DLS) method of Hosseinnia, Khaledabad, and Almasi (2017)
Summary
Black pepper (Piper nigrum L., Piperaceae family) is one of the most popular spices globally. The essential oils derived from black pepper find a myriad of applications in various fields, including manufacture of food and medicine, and are commonly isolated from black pepper materials (Singletary, 2010). Black pepper essential oil appears as a liquid with the color varying from colorless to greenish and has a familiar peppery aroma. Due to poor solubility, absorbability into human body and dispersion of onto food of the black pepper essential oils are greatly limited. This calls for the development of a suitable method that is capable of producing particles of smaller size without compromising biological activities of the oils
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