Effect of Metal Layer Support Structures on the Catalytic Activity of NiFe(oxy)hydroxide (LDH) for the OER in Alkaline Media

Author:

Gort Christopher1ORCID,Buchheister Paul W.2,Klingenhof Malte2,Paul Stephen D.3,Dionigi Fabio2,van de Krol Roel4,Kramm Ulrike I.3,Jaegermann Wolfram1,Hofmann Jan P.1ORCID,Strasser Peter2ORCID,Kaiser Bernhard1

Affiliation:

1. Department of Materials and Earth Sciences Surface Science Laboratory Technical University of Darmstadt Otto-Berndt-Strasse 3 64287 Darmstadt Germany

2. Department for Chemistry Technical Chemistry / Electrocatalysis Technical University Berlin Straße des 17. Juni 124 10623 Berlin Germany

3. Department for Chemistry Catalysts and Electrocatalysts Technical University of Darmstadt Otto-Berndt-Strasse 3 64287 Darmstadt Germany

4. Institute for Solar Fuels Helmholtz-Zentrum Berlin für Materialien und Energie GmbH Hahn-Meitner-Platz 1 14109 Berlin Germany

Abstract

AbstractPhotoelectrochemical (PEC) cells promise to combine the benefits of photovoltaics and electrolysis in one device. They consist of a photoabsorber functionalized with an electrocatalyst to harvest faradaic currents under reduced overpotentials. To protect the absorber from the harsh reaction conditions, a protective buffer layer (e. g. TiO2) is added between absorber and catalyst. In this work, we investigate the influence of the catalyst support systems Ti/TiOx and Ti/TiOx/M (M=Au, Ni, Fe) on the overall activity and stability of nickel and iron mixed layered double hydroxides for the alkaline oxygen evolution reaction (OER). The catalyst performance on the bare Ti/TiOx substrate is very poor, but the incorporation of a metallic interlayer leads to two orders of magnitude higher OER current densities. While a similar effect has been observed for M=gold supported systems, we show that the same effect can be achieved with M=nickel/iron, already contained in the catalyst. This proprietary metal interlayer promises a cheap OER performance increase for PEC cells protected with titania buffer layers. Detailed XPS show an improved transformation of the starting catalyst material into the highly active (oxy)hydroxide phase, when using metallic interlayers. From these experiments a pure conductivity enhancement was excluded as possible explanation, but instead an additional change in the local atomic and electronic structure at the metal‐support and metal‐catalyst interfaces is proposed.

Publisher

Wiley

Subject

Inorganic Chemistry,Organic Chemistry,Physical and Theoretical Chemistry,Catalysis

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