Abstract
The development of advanced methods for the synthesis of nano- and microparticles for biomedical applications is of considerable interest. A method for the synthesis of submicron silver-shelled calcium carbonate particles using a microfluidic chip designed to provide control over particle formation is proposed. Precise control of reaction parameters enables the formation of silver shell and calcium carbonate particles in a controlled manner. The distribution of pores in the hybrid particles was analyzed using small-angle X-ray scattering, which provided insight into the complex structure of the pores. The results provide information on particle morphology and may facilitate the development of new calcium carbonate-based materials for various applications.
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