Titania Condensation by a Bio-Inspired Synthetic Block Copolymer

Silicatein a, an enzyme found at the center of silica spicules in marine sponges, is known to play a role in silica condensation from seawater. It has also been shown to catalyze the formation of silica from various silica precursors such as tetraethyl orthosilicate (TEOS). Inspired by the finding that the serine-26 and histidine-165 amino acids in the enzyme are required for silica formation from TEOS, we synthesized poly(hydroxylated isoprene-b-2-vinylpyridine) block copolymers to mimic these amino acid residues. Here, we present the results of our investigation utilizing this biomimetic polymer to condense titania from titanium isopropoxide (TiP). Our silicatein alpha mimic is shown to condense titania at neutral pH and room temperature and is compared to material produced by standard sol gel methods. Heats of crystallization are observed to be 72% lower for the titania made from the mimic polymer, and indistinct X-ray diffraction peaks, even after heating well above the crystallization temperature, suggest a higher degree of titania condensation with the silicatein alpha mimic. Results from thermogravimetric analysis show that the mimic formed titania initially contains similar to 15 wt % polymer and that the surface area increases from less than 5 to greater than 110 m(2)/g when heated to 400 degrees C. Titania made from the silicatein alpha mimic also shows a higher catalytic activity than does commercial Degussa P25 TiO2 for the photodegradation of N-nitrosodimethylamine (NDMA), degrading 73% of the NDMA in two hours as compared to 62% with Degussa P25. The biomimetic system presented here offers the promise of an environmentally friendlier method of titania production and will enable applications requiring neutral pH and low temperatures, such as titania composite synthesis, surface coating, or catalyst design.