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Formation process of core‐shell microparticles by solute migration during drying of homogenous composite droplets
Author(s) -
Fu Nan,
Wu Winston Duo,
Wu Zhangxiong,
Moo Fei Tzhung,
Woo Meng Wai,
Selomulya Cordelia,
Chen Xiao Dong
Publication year - 2017
Publication title -
aiche journal
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.958
H-Index - 167
eISSN - 1547-5905
pISSN - 0001-1541
DOI - 10.1002/aic.15713
Subject(s) - shell (structure) , composite number , chemical engineering , particle (ecology) , spray drying , nanoparticle , core (optical fiber) , materials science , phase (matter) , microstructure , particle size , microparticle , chemistry , composite material , nanotechnology , organic chemistry , oceanography , engineering , geology
Particle formation process during spray drying profoundly impacts particle morphology and microstructure. This study experimentally investigated the formation of core‐shell‐structured microparticles by one‐step drying of composite droplets made of Eudragit ® RS (a polycationic acrylic polymer in nanoparticle form) and silica sol. The formation of an incipient surface shell was monitored using single droplet drying technique, and the freshly formed shell was recovered for subsequent analyses. Adding silica to RS precursor increased the shell formation time and altered the properties of the incipient shell from water‐dispersible to nondispersible. The incipient shell formed from RS/silica droplets with mass ratios of 1.5%:1.5% and 0.5%:2.5% showed ingredient segregation with a preferential accumulation of RS, similar to the shell region of dried microparticles. After shell formation, excess silica sol in the liquid phase could flow inward, producing a dense core. This mobility‐governed solute migration would be useful for constructing core‐shell microparticles using other precursor systems. © 2017 American Institute of Chemical Engineers AIChE J , 63: 3297–3310, 2017