This thesis has shed light on some of the ways in which the local electrolyte composition can differ from the bulk and how these changes in the local reaction environment can determine the activity... Show moreThis thesis has shed light on some of the ways in which the local electrolyte composition can differ from the bulk and how these changes in the local reaction environment can determine the activity and/or selectivity of two important electrocatalytic reactions, namely, electrochemical CO2 reduction reaction (CO2RR) and hydrogen evolution reaction (HER). Show less
This work describes several studies into the electroreduction of carbon dioxide (CO2RR), both regarding mechanistical aspects and catalyst stability considerations. Mechanistic insights into carbon... Show moreThis work describes several studies into the electroreduction of carbon dioxide (CO2RR), both regarding mechanistical aspects and catalyst stability considerations. Mechanistic insights into carbon-carbon bond formation on a silver catalyst are described in Ch 2, were we find an acetaldehyde-like surface adsorbate to be a key intermediate. Gold stability in alkaline environment under strongly reducing conditions and the effect of near-surface CO on said stability is reported on in Ch 3, showing catalyst degradation under reductive conditions which is furthermore exacerbated by CO adsorption. Chapter 4 details the voltammetric behavior of variously oriented copper surfaces when prepared via a non-standard methodology, showing good agreement with prior literature. The last chapter (Ch 5) contains investigations into the stability of copper under reductive conditions in near-neutral buffered electrolyte and in alkaline electrolyte, where it was observed that copper is morphologically stable under strongly alkaline conditions and neutral conditions in the presence of CO2 and buffer ions, so long as strictly reducing potentials are applied. Show less