Journal
LWT-FOOD SCIENCE AND TECHNOLOGY
Volume 89, Issue -, Pages 596-603Publisher
ELSEVIER SCIENCE BV
DOI: 10.1016/j.lwt.2017.11.040
Keywords
Biopolymer; Essential oil; Complexation; Spray drying; Stability
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Funding
- University of Connecticut, Storrs
- Spanish Ministry of Innovation and Competitiveness MINECO [BES-2012-057278]
- [EEBB-I-2016-11142]
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Three food polymers, zein, sodium caseinate (NaCas) and pectin were exploited as the matrix to formulate colloidal complex nanoparticles for encapsulation of eugenol. A heat- and pH-induced complexation process was optimized via polymer concentrations, loading percentage of eugenol, as well as pH conditions, to obtain small, homogeneous, and stable complex nanoparticles. The particulate properties were significantly affected by pH condition during heating process, and the smallest and most homogeneous complex nanoparticles were obtained when heated at pH 6.6, the isoelectric point of zein. NaCas played an important role to achieve desirable stability during storage and spray drying. Fourier transform infrared spectroscopy indicated that hydrophobic and electrostatic interactions were driving forces to form complex structure. The innovative nano spray drying was tested to transform colloidal nanoparticles to fine powder particles, enabling the long-term storage in powder form and thus a kreater potential to the applications in food industry. Under optimal preparation condition and formulation, eugenol-loaded complex nanoparticles with a size of 140 nm, spherical shape and uniform size distribution were obtained and their structure was verified by both scanning and transmission electron micro-scopies.
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