Abstract
This paper aims at a better understanding of the systematic production of the ethyl cellulose (EC) particles by using an emulsification-solvent evaporation method in the presence of different polysaccharide derivatives. In particular, the role of different surface active polymers i.e. one ionic—carboxymethyl cellulose, one nonionic—hydroxyethyl cellulose, and two amphiphilic—high molecular weight methyl cellulose and low molecular weight methyl cellulose on EC particle formation was investigated. We have established how individual surface active polysaccharides with varying concentration from 0.1 to 3.0 wt% affect particle size and its distribution, particle shape, surface charge, and particle surface morphology. The interdependencies between surfactant nature and concentration at constant processing parameters and the subsequent nano- to micro-particle characteristics are discussed. It was determined that the particle size, surface morphology, supramolecular structure and surface properties of EC particles, prepared by an emulsion evaporation method can be effectively controlled by the type and concentration of used polysaccharide surfactant yielding spherical particles sizes from 170 nm to the micrometer level with smooth particle surfaces or remarkably a wrinkled surface morphology or “particle on particle” structures.Graphical abstract
Highlights
Ethyl cellulose (EC) is derived from a nearly inexhaustible natural polymeric material, cellulose, and possesses properties such as nontoxicity, chemical stability, compressibility, hydrophobicity, and low cost
A very sharp increase in viscosity up to 31,261.0 cP and 15,265.5 cP at concentrations of 3 wt% is observed for nonionic Hydroxyethyl cellulose (HEC) and amphiphilic Methyl cellulose (MC)-HMw, respectively
The process emulsion solvent evaporation was currently used for the manufacture of ethyl cellulose nano-micro particles in the presence of surface active compounds
Summary
Ethyl cellulose (EC) is derived from a nearly inexhaustible natural polymeric material, cellulose, and possesses properties such as nontoxicity, chemical stability, compressibility, hydrophobicity, and low cost. Emulsification with subsequent solvent evaporation was the first method proposed (Vanderhoff et al 1978) for the preparation of polymer nanoparticles and is today well established (Desgouilles et al 2003; Wondraczek et al 2013; Coombs Obrien et al 2017). It is based on the nanoemulsification of an organic solution of a polymer in an aqueous phase followed by the evaporation of the organic solvent, leading to the precipitation of the polymer as nanoparticles of a few hundred nanometers in diameter. Already various different surfactants were tested in the EC nanoparticle preparation, to the best of our knowledge, the potential of ionic, nonionic and amphiphilic polysaccharide surfactants to design differently shaped EC nanoparticles were not investigated yet
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