Impact of Growth Kinetics on Morphology and Pore Structure of TiO2One-Pot Synthesis of Macroporous TiO2 Microspheres

Abstract

Titanium dioxide was synthesized by the hydrolysis of titanium tetraisopropoxide (TTIP) in the presence of acetic acid, 2-propanol, and organic amines (octylamine, aniline, and isobutylamine). H₂O was supplied by an esterification reaction between acetic acid and 2-propanol (denoted as H₂Oe), and/or by intentionally adding it (denoted as H₂Oa). It was found that the quantity of H₂Oa plays a crucial role in the morphology and porous structure of the final TiO₂ product. Without the addition of H₂Oa, 1D and porous TiO₂ was synthesized. With the addition of H₂Oa, and when the H₂Oa:TiO₂ molar ratio was in the range of 1:1 to 60:1, macroporous TiO₂ microspheres possessing a large surface area and high thermal stability were obtained. When the H₂Oa:TiO₂ molar ratio exceeded 60:1, porous TiO₂ with an irregular shape was formed. The variation in the morphology and porous structure is attributed to the manipulation of the growth kinetics by the addition of water.