Litcius/Paper detail

A High-Field Anodic NiO Nanosponge with Tunable Thickness for Application in p-Type Dye-Sensitized Solar Cells

Umair Sultan, Farzaneh Ahmadloo, Gihoon Cha, Baris Gökcan, Seyedsina Hejazi, JeongEun Yoo, Nhat Truong Nguyen, Marco Altomare, Patrik Schmuki, Manuela S. Killian

2020ACS Applied Energy Materials25 citationsDOI

Abstract

Dye-sensitized photocathodes have the potential to significantly contribute to the efficiency of the solar light-to-current conversion in tandem dye-sensitized solar cells (DSSCs). A novel, highly porous nanoarchitecture of NiO is developed in this project. The spongelike material is grown by anodization, shows a virtually crack-free morphology, strongly adheres to the substrate, and can be grown with a controllable thickness of at least up to 6.5 μm. The oxide composition is NiO and the nanosponge exhibits p-type semiconductive behavior. A doubling of the maximum reported p-type DSSC efficiency compared to coumarin C343-sensitized NiO nanoparticle photocathodes can be achieved with the NiO nanosponge. The developed dye-sensitized p-type NiO-based cathodes are promising for application as photocathodes in tandem DSSC devices.

Topics & Concepts

Dye-sensitized solar cellNon-blocking I/OAnodeMaterials scienceAnodizingNickel oxideTandemChemical engineeringSubstrate (aquarium)Energy conversion efficiencyOptoelectronicsNanotechnologyOxideElectrodeChemistryElectrolyteComposite materialMetallurgyAluminiumCatalysisGeologyBiochemistryEngineeringOceanographyPhysical chemistryTiO2 Photocatalysis and Solar CellsTransition Metal Oxide NanomaterialsGas Sensing Nanomaterials and Sensors