Preservation of the Morphology of a Self-Encapsulated Thin Titania Film in a Functional Multilayer Stack: An X-Ray Scattering Study

Tailoring of the titania morphology is achieved by the combination of a triblock coploymer, acting as structure directing agent, and a sol-gel chemistry enabling the incorporation of the provided inorganic material (titania) into the selected phase of the triblock copolymer Spin-coating of the solution on FTO-coated glass, followed by plasma etching and calcination of the thin film resuling in the formation of self-encapsulated crystalline titania nanostructures. The fabricated nanostructures are coated stepwise with dye, conductive polymers and gold forming a functional multilayer stack. An advanced small-angle scattering technique probing the sample with X ray synchrotron radiation under grazing incidence (GIZAXS) is employed for the characterization of the preparation route, as scattering allows accessing the structure inside the multilayers. The tailored titania morphology is preserved during the preparation route towards the functional multilayer stack of a photo voltaic demonstration cell. Two clearly distinguishable structures originate from the substrate and the titania templated by the triblock coploymer hence the other layers induce no additional structures. Therefore, this investigation provides the evidence that the effort spent to tailor the morphology is justified by preservation of the self-encapsulated titania morphology that is created by the structure-directing agent throughout the functional multilayer stack build-up.