Synergistic effect of folic acid and hypericin administration to improve the efficacy of photodynamic therapy via folate receptors.

Transport systems are developed to improve the solubility of the transported drug, increase its stability, enhance its pharmacological activity and target cancer while minimising side effects. In this work, nanoporous silica particles that can be functionalized and loaded with a large number of hydrophobic molecules are proposed. The designed system was modified with folic acid to target the folic acid receptors of cancer cells.

Structural, optical and magnetic properties of a new metal-organic Co-based complex.

A mononuclear cobalt(ii) complex [CHN][CoCl(CHN)] (I) was synthesized and structurally characterized. Single crystal X-ray diffraction analysis indicates that monometallic Co(ii) ions acted as coordination nodes in a distorted octahedral geometry, giving rise to a supramolecular architecture. The latter is made up of a ½ unit form composed of an anionic element [CoCl(CHN)] and one 2-amino-4-methylpyrimidinium cation [CHN].

The surface modification of the silica-coated magnetic nanoparticles and their application in molecular diagnostics of virus infection.

The study presents a series of examples of magnetic nanoparticle systems designed for the diagnosis of viral diseases. In this interdisciplinary work, we describe one of the most comprehensive synthetic approaches for the preparation and functionalization of smart nanoparticle systems for rapid and effective RT-PCR diagnostics and isolation of viral RNA. Twelve different organic ligands and inorganic porous silica were used for surface functionalization of the FeO magnetic core to increase the number of active centres for efficient RNA binding from human swab samples.

A New Member of the Metal-Porphyrin Frameworks Family: Structure, Physicochemical Properties, Hydrogen and Carbon Dioxide Adsorption.

A novel holmium-based porous metal-porphyrin framework, {(H O )[Ho(H TPPS)]  ⋅ 4H O} (denoted as UPJS-17), was synthesised by hydrothermal reaction. Structural analysis reveals, that UPJS-17 has a three-dimensional open framework. The framework is negatively charged and the negative charge is compensated by hydronium cation.

Nanocomposite based on GdO nanoparticles and drug 5-fluorouracil as potential theranostic nano-cargo system.

We have prepared silica matrix with hexagonal symmetry of pores (SBA-15) and loaded it with anticancer drug 5-Fluorouracil (5-FU) to promote it as a drug delivery system. GdO nanoparticles were incorporated into the matrix to enhance nanosystems applicability as contrast agent for MRI, thus enabled this nanocomposite to be used as multifunctional nano-based therapeutic agent. Drug release profile was obtained by UV-VIS spectroscopy, and it indicates the prolongated release of 5-FU during the first hours and the total release after 5 h.