The roles of the first and second coordination spheres in the design of molecular catalysts for H<sub>2</sub>production and oxidation

DuBois, M. Rakowski; DuBois, Daniel L.

doi:10.1039/b801197b

Cited by 591 publications

(273 citation statements)

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“…Platinum is very efficient in catalyzing H 2 production, but the low natural abundance and high cost of this noble metal restrict its widespread utilization 9, 10. Progress has been made in identifying HER catalysts by the use of molecular complexes consisting of earth‐abundant metals, such as Fe,11, 12, 13, 14, 15 Co,9, 16, 17, 18, 19, 20 Ni,21, 22, 23, 24, 25 and Mo 26, 27. For example, Co and Fe complexes of N‐based macrocyclic ligands (e.g.…”

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confidence: 99%

Singly versus Doubly Reduced Nickel Porphyrins for Proton Reduction: Experimental and Theoretical Evidence for a Homolytic Hydrogen‐Evolution Reaction

et al. 2016

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A nickel(II) porphyrin Ni‐P (P=porphyrin) bearing four meso‐C6F5 groups to improve solubility and activity was used to explore different hydrogen‐evolution‐reaction (HER) mechanisms. Doubly reduced Ni‐P ([Ni‐P]2−) was involved in H2 production from acetic acid, whereas a singly reduced species ([Ni‐P]−) initiated HER with stronger trifluoroacetic acid (TFA). High activity and stability of Ni‐P were observed in catalysis, with a remarkable i c/i p value of 77 with TFA at a scan rate of 100 mV s−1 and 20 °C. Electrochemical, stopped‐flow, and theoretical studies indicated that a hydride species [H‐Ni‐P] is formed by oxidative protonation of [Ni‐P]−. Subsequent rapid bimetallic homolysis to give H2 and Ni‐P is probably involved in the catalytic cycle. HER cycling through this one‐electron‐reduction and homolysis mechanism has been proposed previously but rarely validated. The present results could thus have broad implications for the design of new exquisite cycles for H2 generation.

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Singly versus Doubly Reduced Nickel Porphyrins for Proton Reduction: Experimental and Theoretical Evidence for a Homolytic Hydrogen‐Evolution Reaction

et al. 2016

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“…[5] Several of these catalysts could in principle be used for solar fuel production, but due to the scarcity of these elements they are not sustainable or suitable for development on larger scale. Abundant elements for active electron acceptor catalysts are Co, Ni, and Fe [17,22,52] that constitute the active parts in several well functioning systems. It is more difficult to accomplish light driven water oxidation, and only a few systems have been shown to work.…”

Section: Resultsmentioning

confidence: 99%

“…The catalysts may contain abundant materials like Co, Fe, Mn, or Ni. [7,10,[21][22][23] It is not unlikely that these mixed systems will be the winning concept since they combine advantages from both types of systems.…”

Section: Molecular and Non-molecular Processesmentioning

confidence: 99%

Molecular Chemistry for Solar Fuels: From Natural to Artificial Photosynthesis

Magnuson¹

2012

Aust. J. Chem.

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The world needs new, environmentally friendly, and renewable fuels to exchange for fossil fuels. The fuel must be made from cheap, abundant, and renewable resources. The research area of solar fuels aims to meet this demand. This paper discusses why we need a solar fuel, and proposes solar energy as the major renewable energy source to feed from. The scientific field concerning artificial photosynthesis is expanding rapidly and most of the different scientific visions for solar fuels are briefly reviewed. Research strategies for the development of artificial photosynthesis to produce solar fuels are overviewed, with some critical concepts discussed in closer detail.

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“…In recent years, considerable attention has been focused on transition metal complexes with chalcogen ligands as synthetic models for the active sites of several metalloenzymes and heterogeneous sulfide catalysts [1][2][3][4]. In this context, ligands based on the ferrocene backbone are of great interest in cluster, materials, and inorganic synthesis due to the natural redox active behavior of the iron centers of the ferrocenyl moiety [5,6].…”

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confidence: 99%

Synthesis and reactivity of cyclopentadienyl ruthenium complexes containing ferrocenylselenolates

Taher

2009

Transition Met Chem

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The heterotrimetallic complex 1,1 0 -[Fc(SeRuCp(PPh 3 ) 2 ) 2 ] is accessible by the reaction of 1,1 0 -[Fc(SeLi) 2 Á2THF] (Fc = Fe(g 5 -C 5 H 4 ) 2 , THF = Tetrahydrofuran) with two equivalents of CpRu(PPh 3 ) 2 Cl in high yield. Complex 1,1 0 -[Fc(SeLi) 2 Á2THF] can be prepared by treatment of 1,1 0 -[Fc(SeSiMe 3 ) 2 ] with two equivalents of n-BuLi in THF solution. 1,1 0 -[Fc(SeRuCp(PPh 3 ) 2 ) 2 ] is converted to 1,1 0 -[Fc(SeRuCpCO(PPh 3 )) 2 ] under CO atmosphere in THF solution. The complexes 1,1 0 -[Fc(SeRuCp(PP)) 2 ][PP = Ph 2 P(CH 2 )PPh 2 (dppm), Ph 2 P(CH 2 ) 2 PPh 2 (dppe), Ph 2 P(CH=CH) 2 PPh 2 (dppee), Ph 2 P(CH 2 ) 3 PPh 2 (dppp)] are obtained in a one-pot reaction of CpRu(PPh 3 ) 2 Cl and 1,1 0 -[Fc(SeLi) 2 Á2THF] with the chelating bisphosphine ligand.

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The roles of the first and second coordination spheres in the design of molecular catalysts for H₂production and oxidation

Cited by 591 publications

References 53 publications

Singly versus Doubly Reduced Nickel Porphyrins for Proton Reduction: Experimental and Theoretical Evidence for a Homolytic Hydrogen‐Evolution Reaction

Singly versus Doubly Reduced Nickel Porphyrins for Proton Reduction: Experimental and Theoretical Evidence for a Homolytic Hydrogen‐Evolution Reaction

Molecular Chemistry for Solar Fuels: From Natural to Artificial Photosynthesis

Synthesis and reactivity of cyclopentadienyl ruthenium complexes containing ferrocenylselenolates

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The roles of the first and second coordination spheres in the design of molecular catalysts for H2production and oxidation

Cited by 591 publications

References 53 publications

Singly versus Doubly Reduced Nickel Porphyrins for Proton Reduction: Experimental and Theoretical Evidence for a Homolytic Hydrogen‐Evolution Reaction

Singly versus Doubly Reduced Nickel Porphyrins for Proton Reduction: Experimental and Theoretical Evidence for a Homolytic Hydrogen‐Evolution Reaction

Molecular Chemistry for Solar Fuels: From Natural to Artificial Photosynthesis

Synthesis and reactivity of cyclopentadienyl ruthenium complexes containing ferrocenylselenolates

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The roles of the first and second coordination spheres in the design of molecular catalysts for H₂production and oxidation