The paper examines chitosan aspartate shell nanoparticles formed in situ in the process of counterion condensation using novel bioactive sol–gel precursors: silicon methyltriglycerolate (MeSi(OGly)₃), silicon dimethyldiglycerolate (Me₂Si(OGly)₂), silicon tetraglycerolate (Si(OGly)₄), and silicon tetrapolyethylene glycolate (Si[O(C₂H₄O)₉H]), as well as titanium tetrapolyethylene glycolate (Ti[O(C₂H₄O)₉H]). The diameter of nanoparticles in the freshly prepared dispersion increases in the series of sol–gel precursors Me₂Si(OGly)₂→Si[O(C₂H₄O)₉H]→MeSi(OGly)₃→Si(OGly)₄→Ti[O(C₂H₄O)₉H], with the lowest polydispersity for Si(OGly)₄ and the highest for Ti[O(C₂H₄O)₉H]. Si- or Ti- coated nanoparticles (excluding Me₂Si(OGly)₂) correspond to kinetically stable nanodispersions: the electrokinetic potential was within 35‒40 mV and the conductivity was 0.58‒0.73 mS/cm. Modification with Me₂Si(OGly)₂ led to abnormally high values of the ζ-potential of the nanoparticles and the conductivity of the system. It was found that dispersions of chitosan aspartate nanoparticles with a sol–gel shell exhibited surface activity. During two-year storage, Si(OGly)₄ -stabilized dispersions maintained stable size and stable electrochemical and surface properties. A slight decrease in particle size and an increase in polydispersity were observed during storage of the samples functionalized with the sol–gel precursor Si[O(C₂H₄O)₉H]; a significant decrease in the size and ζ-potential of particles were observed for Ti[O(C₂H₄O)₉H], while a significant increase in size, polydispersity, and surface tension were noted for MeSi(OGly)₃ and Me₂Si(OGly)₂. Silicon tetraglycerolate was identified as the optimal modifier for stable chitosan aspartate nanoparticles, with the resulting polysiloxane-stabilized particles exhibiting dual bioactivity: plant growth stimulation across taxa and antifungal action against soil pathogens.

Acknowledgment

This research was funded by a grant from the Russian Science Foundation No. 24-16-00172, https://rscf.ru/project/24-16-00172/.