Conformal TiO 2 Aerogel-Like Films by Plasma Deposition: from Omniphobic Antireflective Coatings to Perovskite Solar Cell Photoelectrodes.
Jose M ObreroLidia Contreras-BernalFrancisco J Aparicio RebolloTeresa C RojasFrancisco J FerrerNoe OrozcoZineb SaghiTriana CzermakJose M PedrosaM Carmen López-SantosKostya Ken OstrikovAna BorrasJuan Ramón Sánchez-ValenciaAngel BarrancoPublished in: ACS applied materials & interfaces (2024)
The ability to control the porosity of thin oxide films is a key factor determining their properties. Despite the abundance of dry processes for synthesizing oxide porous layers, a high porosity range is typically achieved by spin-coating-based wet chemical methods. Besides, special techniques such as supercritical drying are required to replace the pore liquid with air while maintaining the porous network. In this study, we propose a new method for the fabrication of ultraporous titanium dioxide thin films at room or mild temperatures ( T ≤ 120 °C) by a sequential process involving plasma deposition and etching. These films are conformal to the substrate topography even for high-aspect-ratio substrates and show percolated porosity values above 85% that are comparable to those of advanced aerogels. The films deposited at room temperature are amorphous. However, they become partly crystalline at slightly higher temperatures, presenting a distribution of anatase clusters embedded in the sponge-like open porous structure. Surprisingly, the porous structure remains after annealing the films at 450 °C in air, which increases the fraction of embedded anatase nanocrystals. The films are antireflective, omniphobic, and photoactive, becoming superhydrophilic when subjected to ultraviolet light irradiation. The supported, percolated, and nanoporous structure can be used as an electron-conducting electrode in perovskite solar cells. The properties of the cells depend on the aerogel-like film thickness, which reaches efficiencies close to those of commercial mesoporous anatase electrodes. This generic solvent-free synthesis is scalable and applicable to ultrahigh porous conformal oxides of different compositions, with potential applications in photonics, optoelectronics, energy storage, and controlled wetting.
Keyphrases
- room temperature
- ionic liquid
- metal organic framework
- tissue engineering
- highly efficient
- reduced graphene oxide
- induced apoptosis
- single cell
- perovskite solar cells
- case report
- bone marrow
- radiation therapy
- gold nanoparticles
- quantum dots
- cell proliferation
- signaling pathway
- cell cycle arrest
- single molecule
- mesenchymal stem cells
- solid state