期刊
POLYMERS
卷 13, 期 10, 页码 -出版社
MDPI
DOI: 10.3390/polym13101548
关键词
droplet evaporation; polyetherimide; polymer nanoparticle; thermally induced phase separation; evaporation kinetic; coffee ring effect
资金
- Natural Science Foundation of Zhejiang province, China [LQ20E030001]
- Research Initiation Fund Project from Zhejiang Sci-Tech University [18012278-Y]
The study focused on the impact of droplet evaporation on the preparation of PEI nanoparticles through thermally induced phase separation (TIPS). Results showed that simultaneous droplet evaporation and TIPS processes produced smaller and more uniform PEI nanoparticles compared to the sequential process. This work contributes to achieving small and uniform polymer nanoparticles through the TIPS process.
The droplet evaporation effect on the preparation of polyetherimide (PEI) nanoparticles by thermally induced phase separation (TIPS) was studied. PEI nanoparticles were prepared in two routes. In route I, the droplet evaporation process was carried out after TIPS. In route II, the droplet evaporation and TIPS processes were carried out simultaneously. The surface tension and shape parameters of samples were measured via a drop shape analyzer. The Z-average particle diameter of PEI nanoparticles in the PEI/dimethyl sulfoxide solution (DMSO) suspension at different time points was tested by dynamic light scattering, the data from which was used to determine the TIPS time of the PEI/DMSO solution. The natural properties of the products from both routes were studied by optical microscope, scanning electron microscope and transmission electron microscope. The results show that PEI nanoparticles prepared from route II are much smaller and more uniform than that prepared from route I. Circulation flows in the droplet evaporation were indirectly proved to suppress the growth of particles. At 30 degrees C, PEI solid nanoparticles with 193 nm average particle size, good uniformity, good separation and good roundness were obtained. Route I is less sensitive to temperature than route II. Samples in route I were still the accumulations of micro and nanoparticles until 40 degrees C instead of 30 degrees C in route II, although the particle size distribution was not uniform. In addition, a film structure would appear instead of particles when the evaporation temperature exceeds a certain value in both routes. This work will contribute to the preparation of polymer nanoparticles with small and uniform particle size by TIPS process from preformed polymers.
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