Role of the interfacial water structure on electrocatalysis: Oxygen reduction on Pt (1 1 1) in methanesulfonic acid
AP Sandoval-Rojas, AM Gómez-Marín… - Catalysis Today, 2016 - Elsevier
Catalysis Today, 2016•Elsevier
Most of electrocatalytic reactions occur in an aqueous environment. Understanding the
influence of water structure on reaction dynamics is fundamental in electrocatalysis. In this
work, the role of liquid water structure on the oxygen reduction at Pt (1 1 1) electrode is
analyzed in methanesulfonic (MTSA) and perchloric acids. This is because these different
anions can exert a different influence on liquid water structure. Results reveal a lower ORR
electrode activity in MTSA than in HClO 4 solutions and they are discussed in light of anion's …
influence of water structure on reaction dynamics is fundamental in electrocatalysis. In this
work, the role of liquid water structure on the oxygen reduction at Pt (1 1 1) electrode is
analyzed in methanesulfonic (MTSA) and perchloric acids. This is because these different
anions can exert a different influence on liquid water structure. Results reveal a lower ORR
electrode activity in MTSA than in HClO 4 solutions and they are discussed in light of anion's …
Abstract
Most of electrocatalytic reactions occur in an aqueous environment. Understanding the influence of water structure on reaction dynamics is fundamental in electrocatalysis. In this work, the role of liquid water structure on the oxygen reduction at Pt(1 1 1) electrode is analyzed in methanesulfonic (MTSA) and perchloric acids. This is because these different anions can exert a different influence on liquid water structure. Results reveal a lower ORR electrode activity in MTSA than in HClO4 solutions and they are discussed in light of anion's influence on water structural ordering. From them, the existence of an outer-sphere, rate determining, step in the ORR mechanism is suggested.
Elsevier
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