Affiliation:
1. Chemical Engineering Department, Columbia University in the City of New York 500 West 120th Street New York NY 10025 USA de2300@columbia.edu
2. Magneto Special Anodes BV (an Evoqua Brand) Calandstraat 109 3125 BA Schiedam The Netherlands
3. Leiden Institute of Chemistry, Leiden University PO Box 9502 2300 RA Leiden The Netherlands
Abstract
This chapter describes the use of ultrathin oxide overlayers to modify and control the properties of electrocatalysts. Of particular interest are oxide-encapsulated electrocatalysts (OECs), for which the oxide overlayers are permeable to electroactive species such that electrochemical reactions occur at the buried interface between the overlayer and active electrocatalyst component. Such OECs offer several advantages over conventional electrocatalysts that are directly exposed to the electrolyte, presenting opportunities to improve the durability, selectivity, and activity of the active electrocatalyst material. However, the intertwined nature of the physical and chemical phenomena that underlie OEC operation adds complexity to the task of rationally designing OECs, and an improper choice of operating conditions or overlayer characteristics can be highly detrimental to their performance. To help researchers overcome these challenges, this chapter describes (i) the transport and kinetic principles that underlie OEC operation and (ii) experimental tools and methodologies that can be used to evaluate OEC performance. Collectively, the principles and methodologies described here can serve as a framework for developing design rules for optimized OECs that can be applied to a wide range of electrochemical energy applications.
Publisher
The Royal Society of Chemistry
Cited by
4 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献