Self-organization in a polymer system appears when a balance is achieved between long-range repulsive and short-range attractive forces between the chemically different building blocks. Block copolymers forming supramolecular assemblies in aqueous media represent materials which are extremely useful for the construction of drug delivery systems especially for cancer applications. Such formulations suppress unwanted physicochemical properties of the encapsulated drugs, modify biodistribution of the drugs towards targeted delivery into tissue of interest and allow triggered release of the active cargo. In this review, we focus on general principles of polymer selforganization in solution, phase separation in polymer systems (driven by external stimuli, especially by changes in temperature, pH, solvent change and light) and on effects of copolymer architecture on the self-assembly process., M. Hrubý, S. K. Filippov, P. Štěpánek., and Obsahuje bibliografii
Paper deals with measuring temperature dependence of the dissipation factor, relative permittivity and internal resistivity of nanocomposite materials based on epoxy resin and preparation process of measured samples. The sample microstructure and material composition is studied with scanning electron microscope and energy dispersive X-Ray spectrometer. and Článek se zabývá měřením teplotních závislostí ztrátového činitele, relativní permitivity a vnitřní rezistivity nanokompozitních materiálů na bázi epoxidové pryskyřice a postupem přípravy měřených vzorků. Mikrostruktura a materiálové složení nanokompozitů jsou studovány pomocí rastrovacího elektronového mikroskopu a energiově disperzního analyzátoru Rentgenova záření.