Catalytic Water-Oxidation Activity of a Weakly Coupled Binuclear Ruthenium Polypyridyl Complex

The catalytic oxidation of water by the binuclear complex [Ru2(H2O)2(bpy)2(tpy2ph)](PF6)4 [bpy = 2,2′‐bipyridine; tpy2ph = 1,3‐bis(4′‐2,2′:6′,2′′‐terpyridin‐4‐yl)benzene] was investigated comparatively to its mononuclear counterpart [Ru(H2O)(bpy)(phtpy)](PF6)2 (phtpy = 4′‐phenyl‐2,2′:6′,2′′‐terpyrid...

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Published in:European journal of inorganic chemistry 2016-12, Vol.2016 (36), p.5547-5556
Main Authors: Matias, Tiago A., Mangoni, Ana P., Toma, Sergio H., Rein, Francisca N., Rocha, Reginaldo C., Toma, Henrique E., Araki, Koiti
Format: Article
Language:English
Subjects:
Catalysis
Catalysts
Chlorides
Coupling
Electrocatalysis
Electronic coupling
Electronics
Evolution
Oxygen
Precursors
Ruthenium
Water splitting
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cited_by cdi_FETCH-LOGICAL-c3609-b750b224633908503c85cb8de7d62da5682476515c8007c067372dfaa04e877a3
cites cdi_FETCH-LOGICAL-c3609-b750b224633908503c85cb8de7d62da5682476515c8007c067372dfaa04e877a3
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container_issue 36
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container_title European journal of inorganic chemistry
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creator Matias, Tiago A.
Mangoni, Ana P.
Toma, Sergio H.
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Rocha, Reginaldo C.
Toma, Henrique E.
Araki, Koiti
description The catalytic oxidation of water by the binuclear complex [Ru2(H2O)2(bpy)2(tpy2ph)](PF6)4 [bpy = 2,2′‐bipyridine; tpy2ph = 1,3‐bis(4′‐2,2′:6′,2′′‐terpyridin‐4‐yl)benzene] was investigated comparatively to its mononuclear counterpart [Ru(H2O)(bpy)(phtpy)](PF6)2 (phtpy = 4′‐phenyl‐2,2′:6′,2′′‐terpyridine). These catalysts were prepared from the synthesis of their precursor chloride complexes, which were also extensively characterized in this work. The H2O–RuII complexes were found to undergo proton‐coupled electron‐transfer processes to generate the redox species HO–RuIII, O=RuIV, and O=RuV. The catalytically active species, [RuV2(O)2(bpy)2(tpy2ph)]6+ and [RuV(O)(bpy)(phtpy)]3+, were generated electrochemically and by using cerium(IV) ammonium nitrate. In the presence of CeIV, the catalytic rates for O2 production by the binuclear and mononuclear species were 1.9 × 10–3 and 9.5 × 10–5 s–1, respectively. This superior catalytic performance of the binuclear complex suggests that, despite weak electronic coupling between the Ru centers, the second site could play an important mechanistic role in the formation of the activated species [(bpy)(OO)RuIV(tpy2ph)RuIII(OH)(bpy)]4+. A weakly coupled binuclear complex shows a rate constant for oxygen evolution that is up to 20 times larger than that of the analogous mononuclear complex, which indicates a major role of the second site on the catalytic activity.
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These catalysts were prepared from the synthesis of their precursor chloride complexes, which were also extensively characterized in this work. The H2O–RuII complexes were found to undergo proton‐coupled electron‐transfer processes to generate the redox species HO–RuIII, O=RuIV, and O=RuV. The catalytically active species, [RuV2(O)2(bpy)2(tpy2ph)]6+ and [RuV(O)(bpy)(phtpy)]3+, were generated electrochemically and by using cerium(IV) ammonium nitrate. In the presence of CeIV, the catalytic rates for O2 production by the binuclear and mononuclear species were 1.9 × 10–3 and 9.5 × 10–5 s–1, respectively. This superior catalytic performance of the binuclear complex suggests that, despite weak electronic coupling between the Ru centers, the second site could play an important mechanistic role in the formation of the activated species [(bpy)(OO)RuIV(tpy2ph)RuIII(OH)(bpy)]4+. 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J. Inorg. Chem</addtitle><description>The catalytic oxidation of water by the binuclear complex [Ru2(H2O)2(bpy)2(tpy2ph)](PF6)4 [bpy = 2,2′‐bipyridine; tpy2ph = 1,3‐bis(4′‐2,2′:6′,2′′‐terpyridin‐4‐yl)benzene] was investigated comparatively to its mononuclear counterpart [Ru(H2O)(bpy)(phtpy)](PF6)2 (phtpy = 4′‐phenyl‐2,2′:6′,2′′‐terpyridine). These catalysts were prepared from the synthesis of their precursor chloride complexes, which were also extensively characterized in this work. The H2O–RuII complexes were found to undergo proton‐coupled electron‐transfer processes to generate the redox species HO–RuIII, O=RuIV, and O=RuV. The catalytically active species, [RuV2(O)2(bpy)2(tpy2ph)]6+ and [RuV(O)(bpy)(phtpy)]3+, were generated electrochemically and by using cerium(IV) ammonium nitrate. In the presence of CeIV, the catalytic rates for O2 production by the binuclear and mononuclear species were 1.9 × 10–3 and 9.5 × 10–5 s–1, respectively. This superior catalytic performance of the binuclear complex suggests that, despite weak electronic coupling between the Ru centers, the second site could play an important mechanistic role in the formation of the activated species [(bpy)(OO)RuIV(tpy2ph)RuIII(OH)(bpy)]4+. 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J. Inorg. Chem</addtitle><date>2016-12</date><risdate>2016</risdate><volume>2016</volume><issue>36</issue><spage>5547</spage><epage>5556</epage><pages>5547-5556</pages><issn>1434-1948</issn><eissn>1099-0682</eissn><abstract>The catalytic oxidation of water by the binuclear complex [Ru2(H2O)2(bpy)2(tpy2ph)](PF6)4 [bpy = 2,2′‐bipyridine; tpy2ph = 1,3‐bis(4′‐2,2′:6′,2′′‐terpyridin‐4‐yl)benzene] was investigated comparatively to its mononuclear counterpart [Ru(H2O)(bpy)(phtpy)](PF6)2 (phtpy = 4′‐phenyl‐2,2′:6′,2′′‐terpyridine). These catalysts were prepared from the synthesis of their precursor chloride complexes, which were also extensively characterized in this work. The H2O–RuII complexes were found to undergo proton‐coupled electron‐transfer processes to generate the redox species HO–RuIII, O=RuIV, and O=RuV. The catalytically active species, [RuV2(O)2(bpy)2(tpy2ph)]6+ and [RuV(O)(bpy)(phtpy)]3+, were generated electrochemically and by using cerium(IV) ammonium nitrate. 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subjects Catalysis
Catalysts
Chlorides
Coupling
Electrocatalysis
Electronic coupling
Electronics
Evolution
Oxygen
Precursors
Ruthenium
Water splitting
title Catalytic Water-Oxidation Activity of a Weakly Coupled Binuclear Ruthenium Polypyridyl Complex
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