Encapsulation of Nanoparticles of d-Limonene by Spray Drying: Role of Emulsifiers and Emulsifying Techniques
Seid Mahdi Jafari, Yinghe He, Bhesh Bhandari
Drying Technology
Abstract
Submicron emulsion particles of d-limonene prepared by a microfluidizer and ultrasound were spray dried to produce nanoparticle encapsulated powders. Maltodextrin combined with a surface-active biopolymer (modified starch or whey protein concentrate) or a small molecule surfactant (Tween 20) was used as the wall material. Results showed that microfluidization was an efficient emulsification technique resulting in a powder with the highest retention (86.2%) of d-limonene, mainly due to its capability to produce emulsions with fairly small droplets (d 43 of 700–800 nm) and narrow distributions, which had a good stability during the process. Among different emulsifiers used, although Tween 20 significantly reduced the emulsion size (d 43 < 200 nm), the resulted powder had the poorest encapsulation efficiency.
Extracted Claims
3 claims extracted from this paper into the knowledge graph
Tween 20 reduces emulsion size
“Although Tween 20 significantly reduced the emulsion size (d 43 < 200 nm)”
Tween 20 results in powder
“the resulted powder had the poorest encapsulation efficiency”
microfluidization produces emulsions
“microfluidization was an efficient emulsification technique resulting in a powder with the highest retention (86.2%) of d-limonene, mainly due to its capability to produce emulsions with fairly small ...”