4.7 Article

A Study of the Buffer Capacity of Polyelectrolyte Microcapsules Depending on Their Ionic Environment and Incubation Temperature

Journal

Publisher

MDPI
DOI: 10.3390/ijms23126608

Keywords

polyelectrolyte microcapsules; microcapsules; buffer capacity; polyelectrolyte

Funding

  1. State assignment of Russian Federation [075-01027-22-00]

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Polyelectrolyte microcapsules (PMCs) are being studied for their buffer capacity, which is influenced by factors such as salt concentration, type, and incubation temperature. Increasing NaCl concentration to 1 M enhances buffer capacity of PMCs at pH >= 5, while higher concentrations do not further change the buffer capacity. Additionally, heated PMCs showed a decrease in buffer capacity with increasing temperature, which could be attributed to changes in the composition.
Polyelectrolyte microcapsules (PMCs) are used in the development of new forms of drugs, coatings and diagnostic systems. Their buffer capacity, depending on the conditions of the medium, has not been practically studied, although it can affect the structure of both the capsule itself and the encapsulated agents. In this connection, we studied the buffer capacity of polyelectrolyte microcapsules of the composition (polystyrene sulfonate/polyallylamine)(3) ((PSS/PAH)(3)) depending on the concentration and the type of salt in solution, as well as the microcapsule incubation temperature. It was found that the buffer capacity of microcapsules in the presence of mono- and di-valent salts of the same ionic strength did not differ practically. Increasing the NaCl concentration to 1 M led to an increase of buffer capacity of PMCs at pH >= 5, and an increase in NaCl concentration above 1 M did not change buffer capacity. The study of the buffer capacity of pre-heated PMCs showed that buffer capacity decreased with increasing incubation temperature, which was possibly due to the compaction of the PMCs and an increase in the number of compensated PAH sites. The addition of 1 M sodium chloride to heated PMCs presumably reversed the process described above, since an increase in the ionic strength of the solution led to an increase of the buffer capacity of the PMCs. The effects described above confirm the hypothesis put forward that the buffer properties of microcapsules are determined by uncompensated PAH regions in their composition.

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