Date: Friday, October 23rd

Time: 4pm - 6pm

Location: EBB Building, Room 4029

Committee: 

Dr. Kenneth H. Sandhage, Advisor, MSE

Dr. Meilin Liu, MSE

Dr. Hamid Garmestani, MSE    

Dr. Preet Singh, MSE

Dr. Lawrence Bottomley, Chemistry

Title:  Shape Preserving Conversion Reactions of Alumina Structures using Metal Halides: Structures, Kinetics, and Applications

Abstract:

Porous anodic aluminum oxide nanostructures provide hexagonally ordered arrays of pores with periodic distribution and tunable size and length. The research in this dissertation introduces a new process for partially converting the chemistry of the aluminum oxide nanostructure to titanium dioxide while retaining shape through a gaseous metal halide (TiF₄) reactive conversion process. By this process, oriented single and multi-wall titania nanotube arrays with tailored structures can be formed. This vapor-based process allows titania formation within small pores inaccessible to liquid-based approaches through an intermediary TiOF₂ product. The research explores applications of converted titania structures, including dye-sensitized solar cells. The reactive conversion kinetics of Al₂O₃ into TiOF₂ was studied to reveal two kinetic regimes limited by chemical reaction and solid-state diffusion, respectively, allowing a stronger understanding of how the conversion reaction might be optimized in future applications.  Other metal fluoride reactions with anodic aluminum oxide (Al₂O₃) are also studied (including the successful conversion of Al₂O₃ into Nb₂O₅) showing the versatility of converting anodic aluminum oxide for applications requiring certain other oxide materials.