The Pourbaix diagrams of p-block Pb, Sb, and Bi establish a robust stability for their oxides
in acidic solutions. Such oxides have found utility as stable frameworks to support metals …

Abstract Development of first-row transition-metal-based catalysts for oxygen evolution is a
desirable goal due to the low cost and abundance of transition metals, relative to iridium …

Crystalline metal oxide catalysts operating under oxygen evolution reaction (OER)
conditions invariably restructure, resulting in active sites with hydroxo/oxo species in an …

The introduction of non-metal elements including boron has been identified as a significant
means to enhance oxygen evolution reaction (OER) performance in NiFe-based catalysts …

Developing robust oxygen evolution reaction (OER) catalysts requires significant advances
in material design and in‐depth understanding for water electrolysis. Herein, we report …

The sluggish kinetics of the oxygen evolution reaction (OER) is one of the most limiting
factors for the development of many “green” electrochemical devices. Expensive ruthenium …

Development of catalysts for the oxygen evolution reaction (OER) that are capable of robust
operation at low pH and elevated temperatures, but do not contain scarce ruthenium and …

The oxygen evolution reaction is a kinetically sluggish half-cell reaction which plays an
important role in tuning the efficiency of various electrochemical energy conversion systems …

Perovskite oxides (ABO3) have been studied extensively to promote the kinetics of the
oxygen evolution reaction (OER) in alkaline electrolytes. However, developing highly active …

Performance of electrocatalytic reactions depends on not only the composition and structure
of the active sites, but also their local environment, including the surrounding electrolyte. In …