Theory-Guided Development of a Barium-Doped Cobalt Catalyst for Ammonia Decomposition

Abstract

The efficiency of the catalytic decomposition of ammonia is a central challenge for the use of ammonia as a potential hydrogen vector and fuel for heavy-duty applications. In this study, we explore the promotional effect of alkaline and earth-alkaline metals on cobalt and nickel catalysts for ammonia decomposition in a computational screening. We elucidate the strong influence of the recently proposed spin promotion effect on catalytic activity and identify barium as a promising and stable promoter of Co under the relevant reaction conditions. The predictions are validated experimentally through the study of a BaCo catalyst, ultimately yielding a metal-based hydrogen productivity of 12.2 mol gCo-1 h-1 at 500 °C, common for state-of-the-art ruthenium catalysts. This work not only reports the successful development of a novel catalyst but also provides validation for the spin-promotion effect and its substantial influence on catalyst performance.