Electronic-State Manipulation Of Surface Titanium Activates Dephosphorylation Over Tio2 Near Room Temperature

Dephosphorylation that removes a phosphate group from substrates is an important reaction for living organisms and environmental protection. Although CeO2 has been shown to catalyze this reaction, cerium is low in natural abundance and has a narrow global distribution (>90 % of these reserves are located within six countries). It is thus imperative to find another element/material with high worldwide abundance that can also efficiently extract the phosphate out of agricultural waste for phosphorus recycle. Using para-nitrophenyl phosphate (p-NPP) as a model compound, we demonstrate that TiO2 with a F-modified (001) surface can activate p-NPP dephosphorylation at temperatures as low as 40 degrees C. By probe-assisted nuclear magnetic resonance (NMR), it was revealed that the strong electron-withdrawing effect of fluorine makes Ti atoms (the active sites) on the (001) surface very acidic. The bidentate adsorption of p-NPP on this surface further promotes its subsequent activation with a barrier approximate to 20 kJ mol(-1) lower than that of the pristine (001) and (101) surfaces, allowing the activation of this reaction near room temperature (from >80 degrees C).