Reaction of Nitrogen Chelates with the [Rh<sub>2</sub>]<sup>4+</sup>Core:  Bis-Chelate Products and Demonstration of Reversible, Chelate-Based Reduction Processes

Crawford, Charles A.; Matonic, John H.; Huffman, John C.; Folting, Kirsten; Dunbar, Kim R.; Christou, George

doi:10.1021/ic9610288

Cited by 61 publications

(83 citation statements)

References 44 publications

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“…Earlier properties and spectra of the [Rh 2 (OOCMe) 2 -(dmbpy) 2 (MeCN) 2 ](BF 4 ) 2 complex with 4,4Ј-dimethyl-2,2Ј-bipyridine was described; [18] however, its X-ray structure was not determined. Until now, only (carboxylato)rhodium MWs with bpy and phen ligands were characterized.…”

Section: (H 2 O) 2 ]mentioning

confidence: 99%

“…The EPR spectrum of complex 3 is similar to the spectra of the chain compounds [7][8][9] and [Rh 2 (NCMe) 8 ] n -(BF 4 ) 3n [12] but different to that of the discrete dinuclear paramagnetic complex [Rh 2 (µ-OOCCH 3 ) 2 (bpy) 2 (NCCH 3 ) 2 ]-[BF 4 ]. [18] It was suggested that in the latter compound the unpaired electron is delocalized over the bpy ligand. 6+ .…”

Section: (H 2 O) 2 ]mentioning

confidence: 99%

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Synthesis and Structural and Physicochemical Characterization of {[Rh₂(μ‐OOCCH₃)₂(dmbpy)₂][BF₄]}_n Molecular Wire

et al. 2008

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= 4,4Ј-dimethyl-2,2Ј-bipyridine) were synthesized and characterized with spectroscopic methods. The structure of complex 2 was determined by using X-ray crystallography. The rhodium atoms in compound 2 have distorted octahedral coordination with O and N atoms in equatorial positions and a Rh atom and a H 2 O molecule in axial coordination sites. Reduction of compound 2 with aqueous alcohols leads to the formation of the molecular wire {[Rh 2 (µ-OOCCH 3 ) 2 (dmbpy) 2 ][BF 4 ]} n ·2nH 2 O (3) con-

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Section: (H 2 O) 2 ]mentioning

confidence: 99%

Section: (H 2 O) 2 ]mentioning

confidence: 99%

Synthesis and Structural and Physicochemical Characterization of {[Rh₂(μ‐OOCCH₃)₂(dmbpy)₂][BF₄]}_n Molecular Wire

et al. 2008

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“…Therefore, in addition to two ligand‐centered reductions, a metal‐centered Rh 2 4+ →Rh 2 3+ reduction is also accessible within the potential range 15b. 24…”

Section: Resultsmentioning

confidence: 99%

Amide‐Functionalized Naphthyridines on a Rh^II–Rh^II Platform: Effect of Steric Crowding, Hemilability, and Hydrogen‐Bonding Interactions on the Structural Diversity and Catalytic Activity of Dirhodium(II) Complexes

Sarkar

Daw

Ghatak

et al. 2014

Chemistry A European J

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Ferrocene-amide-functionalized 1,8-naphthyridine (NP) based ligands {[(5,7-dimethyl-1,8-naphthyridin-2-yl)amino]carbonyl}ferrocene (L(1) H) and {[(3-phenyl-1,8-naphthyridin-2-yl)amino]carbonyl}ferrocene (L(2) H) have been synthesized. Room-temperature treatment of both the ligands with Rh2 (CH3 COO)4 produced [Rh2 (CH3 COO)3 (L(1) )] (1) and [Rh2 (CH3 COO)3 (L(2) )] (2) as neutral complexes in which the ligands were deprotonated and bound in a tridentate fashion. The steric effect of the ortho-methyl group in L(1) H and the inertness of the bridging carboxylate groups prevented the incorporation of the second ligand on the {Rh(II) -Rh(II) } unit. The use of the more labile Rh2 (CF3 COO)4 salt with L(1) H produced a cis bis-adduct [Rh2 (CF3 COO)4 (L(1) H)(2) ] (3), whereas L(2) H resulted in a trans bis-adduct [Rh2 (CF3 COO)3 (L(2) )(L(2) H)] (4). Ligand L(1) H exhibits chelate binding in 3 and L(2) H forms a bridge-chelate mode in 4. Hydrogen-bonding interactions between the amide hydrogen and carboxylate oxygen atoms play an important role in the formation of these complexes. In the absence of this hydrogen-bonding interaction, both ligands bind axially as evident from the X-ray structure of [Rh2 (CH3 COO)2 (CH3 CN)4 (L(2) H)2 ](BF4 )2 (6). However, the axial ligands reorganize at reflux into a bridge-chelate coordination mode and produce [Rh2 (CH3 COO)2 (CH3 CN)2 (L(1) H)](BF4 )2 (5) and [Rh2 (CH3 COO)2 (L(2) H)2 ](BF4 )2 (7). Judicious selection of the dirhodium(II) precursors, choice of ligand, and adaptation of the correct reaction conditions affords 7, which features hemilabile amide side arms that occupy sites trans to the Rh-Rh bond. Consequently, this compound exhibits higher catalytic activity for carbene insertion to the CH bond of substituted indoles by using appropriate diazo compounds, whereas other compounds are far less reactive. Thus, this work demonstrates the utility of steric crowding, hemilability, and hydrogen-bonding functionalities to govern the structure and catalytic efficacyof dirhodium(II,II) compounds.

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“…The Rh-Rh distance (2.387(1) Å ) is the shortest [16] amongst similar paddlewheel Rh 2 (CH 3 COO) 2 complexes listed in Table 1. [17][18][19][20][21][22][23][24][25][26][27][28][29][30] It is our assertion that weak axial interactions lead to shorter metalmetal distance in compound 1. [8,9] The reaction of cis-[Ru 2 (CO) 4 (2) in high yield.…”

Section: Resultsmentioning

confidence: 99%

Contrasting Reactivity of 2-Mesityl-1,8-Naphthyridine (Mes-NP) with Singly-Bonded [RhII–RhII] and [RuI–RuI] Compounds

Saha¹,

Rahaman²,

Sinha³

et al. 2011

Aust. J. Chem.

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Reaction of cis-[Rh 2 (CH 3 COO) 2 (CH 3 CN) 6 ](BF 4 ) 2 with two equivalents of 2-mesityl-1,8-naphthyridine (Mes-NP) affords trans-[Rh 2 (CH 3 COO) 2 (Mes-NP) 2 ](BF 4 ) 2 (1). X-ray structure reveals weak Rh-C(ipso) interaction, and a short Rh-Rh distance. The same ligand, in contrast, oxidatively cleaves the Ru-Ru bond in cis-[Ru 2 (CO) 4 (CH 3 CN) 6 ](BF 4 ) 2 and results in trans-[Ru(Mes-NP) 2 (CH 3 CN) 2 ](BF 4 ) 2 (2). Both compounds adopt trans geometry to relieve the steric strain. Compound 2 exhibits moderate activity for the alcohol oxidation and aldehyde olefination reactions.

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Reaction of Nitrogen Chelates with the [Rh₂]⁴⁺Core: Bis-Chelate Products and Demonstration of Reversible, Chelate-Based Reduction Processes

Cited by 61 publications

References 44 publications

Synthesis and Structural and Physicochemical Characterization of {[Rh₂(μ‐OOCCH₃)₂(dmbpy)₂][BF₄]}_n Molecular Wire

Synthesis and Structural and Physicochemical Characterization of {[Rh₂(μ‐OOCCH₃)₂(dmbpy)₂][BF₄]}_n Molecular Wire

Amide‐Functionalized Naphthyridines on a Rh^II–Rh^II Platform: Effect of Steric Crowding, Hemilability, and Hydrogen‐Bonding Interactions on the Structural Diversity and Catalytic Activity of Dirhodium(II) Complexes

Contrasting Reactivity of 2-Mesityl-1,8-Naphthyridine (Mes-NP) with Singly-Bonded [RhII–RhII] and [RuI–RuI] Compounds

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Reaction of Nitrogen Chelates with the [Rh2]4+Core: Bis-Chelate Products and Demonstration of Reversible, Chelate-Based Reduction Processes

Cited by 61 publications

References 44 publications

Synthesis and Structural and Physicochemical Characterization of {[Rh2(μ‐OOCCH3)2(dmbpy)2][BF4]}n Molecular Wire

Synthesis and Structural and Physicochemical Characterization of {[Rh2(μ‐OOCCH3)2(dmbpy)2][BF4]}n Molecular Wire

Amide‐Functionalized Naphthyridines on a RhII–RhII Platform: Effect of Steric Crowding, Hemilability, and Hydrogen‐Bonding Interactions on the Structural Diversity and Catalytic Activity of Dirhodium(II) Complexes

Contrasting Reactivity of 2-Mesityl-1,8-Naphthyridine (Mes-NP) with Singly-Bonded [RhII–RhII] and [RuI–RuI] Compounds

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Reaction of Nitrogen Chelates with the [Rh₂]⁴⁺Core: Bis-Chelate Products and Demonstration of Reversible, Chelate-Based Reduction Processes

Synthesis and Structural and Physicochemical Characterization of {[Rh₂(μ‐OOCCH₃)₂(dmbpy)₂][BF₄]}_n Molecular Wire

Synthesis and Structural and Physicochemical Characterization of {[Rh₂(μ‐OOCCH₃)₂(dmbpy)₂][BF₄]}_n Molecular Wire

Amide‐Functionalized Naphthyridines on a Rh^II–Rh^II Platform: Effect of Steric Crowding, Hemilability, and Hydrogen‐Bonding Interactions on the Structural Diversity and Catalytic Activity of Dirhodium(II) Complexes