How to Prepare Sodium Alginate Microspheres with Controllable Particle Size
Posted by RichardG111
from the Health category at
11 Aug 2023 02:44:35 am.
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Preparation of Sodium Alginate Microspheres
Sodium alginate microspheres can be prepared by emulsification cross-linking method. Among them, the liquid paraffin containing Span 80 is used as the oil phase, and the sodium alginate solution is used as the water phase, and the oil-water volume ratio is 1:1. Stir at a certain speed to obtain a W/O (water-in-oil) type mixed emulsion. Add a certain concentration of calcium chloride solution dropwise to cause a cross-linking reaction. The reaction time is 2 hours. Finally, centrifuge at 4000 r/min for 10 minutes to separate the precipitate, and then wash and filter with petroleum ether, isopropanol and absolute ethanol. And then, dried in a vacuum oven at 50 °C for 3 h to obtain a light yellow powder. During the preparation process, the concentration of sodium alginate, the content of Span 80, the stirring speed and the concentration of calcium chloride were adjusted to explore their effects on the morphology and particle size of sodium alginate gel microspheres.
Analysis of Synthetic Factors of Sodium Alginate Microspheres
Infrared analysis
Infrared analysis of sodium alginate raw materials and sodium alginate microspheres shows that the vibrational absorption peak of the sodium alginate raw material at 2930 cm-1 is stronger than that of the prepared sodium alginate microspheres. An association reaction occurs between the molecular chains, which limits the vibration of the C-H bond and makes the dipole moment smaller; 1620 cm-1 is the characteristic absorption peak of -COOH, and the O-H absorption peak in carboxylic acid at 1421 cm-1. Studies found that the content of sodium alginate is key factors, and the peak intensity increases with the content of sodium alginate.
Microscopic Morphology Analysis
The study found that when the concentration of sodium alginate was low or high, there were more protrusions and broken microspheres on the surface, and the morphology of the microspheres was not good. The morphology of the microspheres obtained when the concentration of sodium phosphate was 3% was relatively best. As the concentration of sodium alginate increased, the particle size of the microspheres gradually increased. The reason is that the increase of sodium alginate concentration leads to the increase of the viscosity of sodium alginate solution, which increases the interfacial tension between the sodium alginate solution droplet and the oil phase, forming larger sodium alginate droplet, thus forming a more large microspheres.
The effect of Span 80 on microsphere preparation is: with the increase of Span 80 content, the dispersibility of microspheres was improved, and the morphology of microspheres was improved. This is because Span 80 plays a vital role as a surfactant in the process of preparing microspheres by emulsification cross-linking method, which can reduce the interfacial tension between hydrophilic and hydrophobic molecules and prevent emulsion droplets from being produced. When the discrete microspheres are coalesced, a stable emulsion is produced, which is conducive to the preparation of discrete microspheres. In addition, the surfactant also helps to modify and smooth the surface of the microspheres.
In addition, the analysis of the preparation of different stirring speeds found that the stirring speed has a certain influence on the morphology and dispersibility of the microspheres. Increasing the stirring speed will increase the shear force, and increasing the stirring speed can improve the microscopic morphology of the microspheres and reduce the phenomenon of microsphere agglomeration. Microscopic morphology analysis of microspheres prepared with different concentrations of crosslinking agent found that when the concentration of crosslinking agent was 3%, the concentration of Ca2+ was low, the crosslinking reaction was not complete, and the degree of hardening of microspheres was not high, so the morphology of microspheres was not good. Increase the concentration of the cross-linking agent, the concentration of Ca2+ increases, the reaction with the carboxylate of sodium alginate is more thorough, and the microspheres obtained have better morphology.
Tags: Sodium Alginate
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