Single Crystal (Mn,Co) sub(3)O sub(4) Octahedra for Highly Efficient Oxygen Reduction Reactions

Single-crystal (Mn,Co) sub(3)O sub(4) octahedra were synthesized through a novel precipitation-aging method. Well-defined single-crystal octahedra can be formed by carefully controlling the precipitation-dissolution equilibrium, oxygen concentration, and solution temperature during synthesis to matc...

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Veröffentlicht in:	Electrochimica acta 2014-10, Vol.144, p.31-41
Hauptverfasser:	Liu, Huanying, Zhu, Xuefeng, Li, Mingrun, Tang, Qiwen, Sun, Gongquan, Yang, Weishen
Format:	Artikel
Sprache:	eng
Schlagworte:	Cations Exposure Nanoparticles Nucleation Phases Reduction Selectivity Single crystals
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container_title	Electrochimica acta
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creator	Liu, Huanying Zhu, Xuefeng Li, Mingrun Tang, Qiwen Sun, Gongquan Yang, Weishen
description	Single-crystal (Mn,Co) sub(3)O sub(4) octahedra were synthesized through a novel precipitation-aging method. Well-defined single-crystal octahedra can be formed by carefully controlling the precipitation-dissolution equilibrium, oxygen concentration, and solution temperature during synthesis to match the rates of spinel nucleation and octahedra growth. The single-crystal (Mn,Co) sub(3)O sub(4) octahedra expose {111} and {011} facets of cubic and tetragonal phases, respectively, depending on the Mn/Co ratio. However, only single-crystal octahedra of Mn sub(2)CoO sub(4) and Mn sub(2.5)Co sub(0.5)O sub(4) with exposed {011} facets show the highest selectivity towards 4e super(-) and 2e super(-) oxygen reduction reactions (ORR) in alkaline solution, respectively. Furthermore, the single-crystal Mn sub(2)CoO sub(4) octahedra with exposed {011} facets shows similar to 30 times higher area specific activity for ORR than that of nanoparticles with random/mixed facets. The high electrocatalytic activity and selectivity towards ORR are correlated with the octahedral shape, the exposed facet, and the ratio of cations on the exposed facets (especially the octahedrally coordinated Mn super(4+) cations). This facet dependent catalytic performance provides a new route for obtaining highly selective and active ORR electrocatalysts.
doi_str_mv	10.1016/j.electacta.2014.08.087
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Well-defined single-crystal octahedra can be formed by carefully controlling the precipitation-dissolution equilibrium, oxygen concentration, and solution temperature during synthesis to match the rates of spinel nucleation and octahedra growth. The single-crystal (Mn,Co) sub(3)O sub(4) octahedra expose {111} and {011} facets of cubic and tetragonal phases, respectively, depending on the Mn/Co ratio. However, only single-crystal octahedra of Mn sub(2)CoO sub(4) and Mn sub(2.5)Co sub(0.5)O sub(4) with exposed {011} facets show the highest selectivity towards 4e super(-) and 2e super(-) oxygen reduction reactions (ORR) in alkaline solution, respectively. Furthermore, the single-crystal Mn sub(2)CoO sub(4) octahedra with exposed {011} facets shows similar to 30 times higher area specific activity for ORR than that of nanoparticles with random/mixed facets. The high electrocatalytic activity and selectivity towards ORR are correlated with the octahedral shape, the exposed facet, and the ratio of cations on the exposed facets (especially the octahedrally coordinated Mn super(4+) cations). 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The high electrocatalytic activity and selectivity towards ORR are correlated with the octahedral shape, the exposed facet, and the ratio of cations on the exposed facets (especially the octahedrally coordinated Mn super(4+) cations). 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The high electrocatalytic activity and selectivity towards ORR are correlated with the octahedral shape, the exposed facet, and the ratio of cations on the exposed facets (especially the octahedrally coordinated Mn super(4+) cations). This facet dependent catalytic performance provides a new route for obtaining highly selective and active ORR electrocatalysts.</abstract><doi>10.1016/j.electacta.2014.08.087</doi></addata></record>
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subjects	Cations Exposure Nanoparticles Nucleation Phases Reduction Selectivity Single crystals
title	Single Crystal (Mn,Co) sub(3)O sub(4) Octahedra for Highly Efficient Oxygen Reduction Reactions
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