Litcius/Paper detail

Pinning of the Fermi Level in CuFeO<sub>2</sub> by Polaron Formation Limiting the Photovoltage for Photochemical Water Splitting

Yannick Hermans, Andreas Klein, Hori Pada Sarker, Muhammad N. Huda, Henrik Junge, Thierry Toupance, Wolfram Jaegermann

2020Advanced Functional Materials66 citationsDOIOpen Access PDF

Abstract

Abstract CuFeO 2 is recognized as a potential photocathode for photo(electro)chemical water splitting. However, photocurrents with CuFeO 2 ‐based systems are rather low so far. In order to optimize charge carrier separation and water reduction kinetics, defined CuFeO 2 /Pt, CuFeO 2 /Ag, and CuFeO 2 /NiO x (OH) y heterostructures are made in this work through a photodeposition procedure based on a 2H CuFeO 2 hexagonal nanoplatelet shaped powder. However, water splitting performance tests in a closed batch photoreactor show that these heterostructured powders exhibit limited water reduction efficiencies. To test whether Fermi level pinning intrinsically limits the water reduction capacity of CuFeO 2 , the Fermi level tunability in CuFeO 2 is evaluated by creating CuFeO 2 /ITO and CuFeO 2 /H 2 O interfaces and analyzing the electronic and chemical properties of the interfaces through photoelectron spectroscopy. The results indicate that Fermi level pinning at the Fe 3+ /Fe 2+ electron polaron formation level may intrinsically prohibit CuFeO 2 from acquiring enough photovoltage to reach the water reduction potential. This result is complemented with density functional theory calculations as well.

Topics & Concepts

Materials scienceFermi levelPhotocathodeWater splittingPolaronX-ray photoelectron spectroscopyHeterojunctionCondensed matter physicsPhotocatalysisElectronOptoelectronicsChemistryNuclear magnetic resonancePhysicsCatalysisBiochemistryQuantum mechanicsCopper-based nanomaterials and applicationsZnO doping and propertiesAdvanced Photocatalysis Techniques
Pinning of the Fermi Level in CuFeO<sub>2</sub> by Polaron Formation Limiting the Photovoltage for Photochemical Water Splitting | Litcius