In the present work, novel organic-inorganic hybrid materials containing boron, zirconium, and phosphorus were synthesized at different molar ratios, using the sol-gel method, starting from zirconyl chloride hexa-hydrate, triethyl borate, and phenyl phosphonic acid as the precursors. The sol-gel process is used for the first time in the present work in order to obtain organic-inorganic hybrids (or the so-called inorganic polymers) containing together boron, zirconium, and phosphorus. The sol-gel syntheses were performed at room temperature in ethanol. Zirconium containing compounds are already well known for their applications in medicine in restorative or prosthetic devices, including dental implants, knee and hip replacements, middle-ear ossicular chain reconstruction, and so on. Zirconium is a strong transition metal, which started to replace hafnium and titanium in the last decade in important applications. On the other hand, boron has the capability (similar to carbon) to form stable covalently bonded molecular networks. In addition to this capability, boron also offers mixed metallic and nonmetallic properties, because of its place on the periodic table, at the border between metals and nonmetals. Boron is responsible for the higher thermal stability of synthesized hybrid compounds. In the structure of those hybrid compounds, zirconium, boron, and phosphorus atoms are always connected via an oxygen atom, by P-O-Zr, Zr-O-Zr, or Zr-O-B bridges.
Keywords: SEM–EDX; TGA; boron; inorganic polymers; organic–inorganic hybrid materials; phosphorus; sol–gel; zirconium.