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MAXNET energy - focusing research in chemical energy conversion on the electrocatlytic oxygen evolution

Auer, Alexander A., Cap, Sébastien, Antonietti, Markus, Cherevko, Serhiy, Deng, Xiaohui, Papakonstantinou, Georgios, Sundmacher, Kai, Brüller, Sebastian, Antonyshyn, Iryna, Dimitratos, Nikolaos, Davis, Robert J., Böhm, Karl-Heinz, Fechler, Nina, Freakley, Simon, Grin, Yuri, Gunnoe, Brent T., Haj-Hariri, Hossein, Hutchings, Graham John, Liang, Haiwei, Mayrhofer, Karl J. J., Müllen, Klaus, Neese, Frank, Ranjan, Chinmoy, Sankar, Meenakshisundaram, Schlögl, Robert, Schüth, Ferdi, Spanos, Ioannis, Stratmann, Martin, Tüysüz, Harun, Vidakovic-Koch, Tanja, Yi, Youngmi and Zangari, Giovanni 2015. MAXNET energy - focusing research in chemical energy conversion on the electrocatlytic oxygen evolution. Green 5 (1-6) , pp. 7-21. 10.1515/green-2015-0021

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Abstract

MAXNET Energy is an initiative of the Max Planck society in which eight Max Planck institutes and two external partner institutions form a research consortium aiming at a deeper understanding of the electrocatalytic conversion of small molecules. We give an overview of the activities within the MAXNET Energy research consortium. The main focus of research is the electrocatalytic water splitting reaction with an emphasis on the anodic oxygen evolution reaction (OER). Activities span a broad range from creation of novel catalysts by means of chemical or material synthesis, characterization and analysis applying innovative electrochemical techniques, atomistic simulations of state-of-the-art x-ray spectroscopy up to model-based systems analysis of coupled reaction and transport mechanisms. Synergy between the partners in the consortium is generated by two modes of cooperation – one in which instrumentation, techniques and expertise are shared, and one in which common standard materials and test protocols are used jointly for optimal comparability of results and to direct further development. We outline the special structure of the research consortium, give an overview of its members and their expertise and review recent scientific achievements in materials science as well as chemical and physical analysis and techniques. Due to the extreme conditions a catalyst has to endure in the OER, a central requirement for a good oxygen evolution catalyst is not only its activity, but even more so its high stability. Hence, besides detailed degradation studies, a central feature of MAXNET Energy is a standardized test setup/protocol for catalyst stability, which we propose in this contribution.

Item Type: Article
Date Type: Publication
Status: Published
Schools: Cardiff Catalysis Institute (CCI)
Chemistry
Subjects: Q Science > QD Chemistry
Uncontrolled Keywords: electrocatalysis; chemical energy conversion; oxygen evolution
Publisher: De Gruyter
ISSN: 1869-876X
Date of Acceptance: 11 December 2015
Last Modified: 26 Dec 2017 20:14
URI: http://orca-mwe.cf.ac.uk/id/eprint/85564

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