ITO Modification for Efficient Inverted Organic Solar Cells.
Diana K SusarovaAlexander V AkkuratovAndrey I KukharenkoSeif O CholakhErnst Z KurmaevLyubov A FrolovaPublished in: Langmuir : the ACS journal of surfaces and colloids (2017)
We demonstrate a facile approach to designing transparent electron-collecting electrodes by depositing thin layers of medium and low work function metals on top of transparent conductive metal oxides (TCOs) such as ITO and FTO. The modified electrodes were fairly stable for months under ambient conditions and maintained their electrical characteristics. XPS spectroscopy data strongly suggested integration of the deposited metal in the TCO structure resulting in additional doping of the conducting oxide at the interface. Kelvin probe microscopy measurements revealed a significant decrease in the ITO work function after modification. Organic solar cells based on three different conjugated polymers have demonstrated state of the art performances in inverted device geometry using Mg- or Yb-modified ITO as electron collecting electrode. The simplicity of the proposed approach and the excellent ambient stability of the modified ITO electrodes allows one to expect their wide utilization in research laboratories and electronic industry.
Keyphrases
- solar cells
- reduced graphene oxide
- solid state
- air pollution
- carbon nanotubes
- particulate matter
- single molecule
- high resolution
- quantum dots
- gold nanoparticles
- electronic health record
- single cell
- perovskite solar cells
- big data
- highly efficient
- artificial intelligence
- water soluble
- deep learning
- metal organic framework
- tissue engineering