Mechanistic Study on the Photogeneration of Hydrogen by Decamethylruthenocene

Lucie Rivier; Pekka Peljo; Sunny Maye; Manuel A. Méndez; Heron Vrubel; Laurent A.C. Vannay; Clémence Corminboeuf; Micheál D. Scanlon; Hubert H. Girault

doi:10.1002/chem.201902353

Mechanistic Study on the Photogeneration of Hydrogen by Decamethylruthenocene

Lucie Rivier
, Pekka Peljo
, Sunny Maye
, Manuel A. Méndez
, Heron Vrubel
, Laurent A.C. Vannay
, Clémence Corminboeuf
, Micheál D. Scanlon
, Hubert H. Girault

Department of Chemical Sciences

Research output: Contribution to journal › Article › peer-review

Abstract

Detailed studies on hydrogen evolution by decamethylruthenocene ([Cp*₂Ru^II]) highlighted that metallocenes are capable of photoreducing hydrogen without the need for an additional sensitizer. Electrochemical, gas chromatographic, and spectroscopic (UV/Vis, ¹H and ¹³C NMR) measurements corroborated by DFT calculations indicated that the production of hydrogen occurs by a two-step process. First, decamethylruthenocene hydride [Cp*₂Ru^IV(H)]⁺ is formed in the presence of an organic acid. Subsequently, [Cp*₂Ru^IV(H)]⁺ is reversibly reduced in a heterolytic reaction with one-photon excitation leading to a first release of hydrogen. Thereafter, the resultant decamethylruthenocenium ion [Cp*₂Ru^III]⁺ is further reduced with a second release of hydrogen by deprotonation of a methyl group of [Cp*₂Ru^III]⁺. Experimental and computational data show spontaneous conversion of [Cp*₂Ru^II] to [Cp*₂Ru^IV(H)]⁺ in the presence of protons. Calculations highlight that the first reduction is endergonic (ΔG⁰=108 kJ mol⁻¹) and needs an input of energy by light for the reaction to occur. The hydricity of the methyl protons of [Cp*₂Ru^II] was also considered.

Original language	English
Pages (from-to)	12769-12779
Number of pages	11
Journal	Chemistry - A European Journal
Volume	25
Issue number	55
DOIs	https://doi.org/10.1002/chem.201902353
Publication status	Published - 1 Oct 2019

Keywords

hydrogen evolution reaction
metallocenes
photochemistry
reaction mechanisms
ruthenium

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10.1002/chem.201902353

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title = "Mechanistic Study on the Photogeneration of Hydrogen by Decamethylruthenocene",

abstract = "Detailed studies on hydrogen evolution by decamethylruthenocene ([Cp*2RuII]) highlighted that metallocenes are capable of photoreducing hydrogen without the need for an additional sensitizer. Electrochemical, gas chromatographic, and spectroscopic (UV/Vis, 1H and 13C NMR) measurements corroborated by DFT calculations indicated that the production of hydrogen occurs by a two-step process. First, decamethylruthenocene hydride [Cp*2RuIV(H)]+ is formed in the presence of an organic acid. Subsequently, [Cp*2RuIV(H)]+ is reversibly reduced in a heterolytic reaction with one-photon excitation leading to a first release of hydrogen. Thereafter, the resultant decamethylruthenocenium ion [Cp*2RuIII]+ is further reduced with a second release of hydrogen by deprotonation of a methyl group of [Cp*2RuIII]+. Experimental and computational data show spontaneous conversion of [Cp*2RuII] to [Cp*2RuIV(H)]+ in the presence of protons. Calculations highlight that the first reduction is endergonic (ΔG0=108 kJ mol−1) and needs an input of energy by light for the reaction to occur. The hydricity of the methyl protons of [Cp*2RuII] was also considered.",

keywords = "hydrogen evolution reaction, metallocenes, photochemistry, reaction mechanisms, ruthenium",

author = "Lucie Rivier and Pekka Peljo and Sunny Maye and M{\'e}ndez, \{Manuel A.\} and Heron Vrubel and Vannay, \{Laurent A.C.\} and Cl{\'e}mence Corminboeuf and Scanlon, \{Miche{\'a}l D.\} and Girault, \{Hubert H.\}",

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year = "2019",

month = oct,

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doi = "10.1002/chem.201902353",

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T1 - Mechanistic Study on the Photogeneration of Hydrogen by Decamethylruthenocene

AU - Rivier, Lucie

AU - Peljo, Pekka

AU - Maye, Sunny

AU - Méndez, Manuel A.

AU - Vrubel, Heron

AU - Vannay, Laurent A.C.

AU - Corminboeuf, Clémence

AU - Scanlon, Micheál D.

AU - Girault, Hubert H.

PY - 2019/10/1

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AB - Detailed studies on hydrogen evolution by decamethylruthenocene ([Cp*2RuII]) highlighted that metallocenes are capable of photoreducing hydrogen without the need for an additional sensitizer. Electrochemical, gas chromatographic, and spectroscopic (UV/Vis, 1H and 13C NMR) measurements corroborated by DFT calculations indicated that the production of hydrogen occurs by a two-step process. First, decamethylruthenocene hydride [Cp*2RuIV(H)]+ is formed in the presence of an organic acid. Subsequently, [Cp*2RuIV(H)]+ is reversibly reduced in a heterolytic reaction with one-photon excitation leading to a first release of hydrogen. Thereafter, the resultant decamethylruthenocenium ion [Cp*2RuIII]+ is further reduced with a second release of hydrogen by deprotonation of a methyl group of [Cp*2RuIII]+. Experimental and computational data show spontaneous conversion of [Cp*2RuII] to [Cp*2RuIV(H)]+ in the presence of protons. Calculations highlight that the first reduction is endergonic (ΔG0=108 kJ mol−1) and needs an input of energy by light for the reaction to occur. The hydricity of the methyl protons of [Cp*2RuII] was also considered.

KW - hydrogen evolution reaction

KW - metallocenes

KW - photochemistry

KW - reaction mechanisms

KW - ruthenium

UR - https://www.scopus.com/pages/publications/85072848901

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AN - SCOPUS:85072848901

SN - 0947-6539

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JO - Chemistry - A European Journal

JF - Chemistry - A European Journal

IS - 55

ER -

Mechanistic Study on the Photogeneration of Hydrogen by Decamethylruthenocene

Abstract

Keywords

UN SDGs

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