ENCAPSULATION OF OMEGA-3 FATTY ACIDS INTO STARCH NANOPARTICLE STABILIZED PICKERING EMULSIONS
Özet
The main purpose of the thesis is to produce starch nanoparticles to be used as an
emulsion stabilizer. In the first part of the thesis, starch nanoparticles were produced via
acid hydrolysis and the starch nanoparticles were characterized in terms of
morphological properties and size, crystallinity and structural properties. Pickering
emulsions were prepared in two different oil fractions (Φ0.6 and Φ0.8) with different
oils (sunflower and corn oil). To determine the starch nanoparticle which provides the
best emulsion stability, emulsions were prepared with addition of 2% (mg starch/g
emulsion) starch nanoparticles. Emulsions were stored for 30 days at room conditions
and phase separation was visually examined. The most stable emulsion was prepared
with corn oil at Φ0.6 oil fraction when the starch nanoparticle (%2) produced with a 1:3
starch:H2SO4 ratio and 3 days hydrolysis (1:3 (3)) was used as stabilizer. In the second
part of the thesis, omega-3 fatty acids were encapsulated in Pickering emulsions.
Flaxseed oil was selected as the omega-3 source. The emulsions were prepared using
flaxseed oil at a Φ0.2 oil fraction with the addition of 3% starch nanoparticles (1: 3 (3)).
The emulsions were stored for 15 days at 25±1°C. Changes in the emulsions during
storage were examined in terms of physical stability, peroxide number, pH, particle size,
and zeta potential. Pickering emulsions stabilized with starch nanoparticles to
encapsulate omega-3 fatty acids made flaxseed oil more resistant to primary oxidation.