The galla[1]ferrocenophane {[dimethyl(2-pyridyl)silyl]bis(trimethylsilyl)methyl-κ2C,N}(ferrocene-1,1′-diyl)gallium(III)

Schachner, Jörg A.; Quail, J. Wilson; Müller, Jens

doi:10.1107/s1600536808005503

Cited by 9 publications

(9 citation statements)

References 13 publications

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“…16 The most commonly discussed angle is the tilt angle α , as the tilting of the Cp ligand alone is responsible for the major portion of the intrinsic strain 16. 17 The gallium compound 4 a exhibits with α angles of 16.26(9) and 16.45(10)° similar values as those for the known Ga‐bridged [1]FCPs equipped with bulky trisyl ‐type ligands (Figure 2) [(Pytsi)Gafc: 15.4(2) and 16.4(2)°;18 (Me 2 Ntsi)Gafc: 15.83(19)°5c].…”

Section: Resultsmentioning

confidence: 88%

A Flexible Approach to Strained Sandwich Compounds: Chiral [1]Ferrocenophanes with Boron, Gallium, Silicon, and Tin in Bridging Positions

Sadeh¹,

Schatte²,

Müller³

2013

Chemistry A European J

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The enantiomerically pure dibromoferrocene 3 [(Sp,Sp )-1,1'-dibromo-2,2'-di(isopropyl)ferrocene], equipped with two iPr groups in α positions, was prepared using known "Ugi amine" chemistry. Species 3 was targeted in order to gain access to new [1]ferrocenophanes ([1]FCPs) to be used as monomers for ring-opening polymerization. The iPr groups on the sandwich unit were introduced to stabilize bridging moieties, as well as to increase solubilities of targeted metallopolymers. The planar chiral dibromide 3 can quantitatively be lithiated at 0°C [2 equiv nBuLi, hexanes/thf (9:1), 30 min]. Salt-metathesis reactions with respective element dichloride species gave chiral [1]FCPs with a variety of bridging moieties [ERx =Ga[2-(Me2NCH2)C6H4] (4 a), SiMe2 (4 b), SntBu2 (4 c), BNiPr2 (4 d)]. The new [1]FCPs were fully characterized including single-crystal X-ray analysis. The stabilizing iPr groups on the Cp rings increase the thermal stabilities of 4 b-d compared to known [1]FCPs, equipped with the same bridging moieties. All three compounds 4 b-d are volatile and could be isolated by vacuum sublimation. Our new approach to [1]FCPs has the potential to overcome many of the existing difficulties in ferrocenophane chemistry, such as limited stability of starting monomers and low solubilities of resulting polyferrocenes.

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Section: Resultsmentioning

confidence: 88%

A Flexible Approach to Strained Sandwich Compounds: Chiral [1]Ferrocenophanes with Boron, Gallium, Silicon, and Tin in Bridging Positions

Sadeh¹,

Schatte²,

Müller³

2013

Chemistry A European J

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“…That the targeted strained species was formed in solution was evident from proton NMR spectroscopy. Aluminum- or gallium-bridged ferrocenophanes equipped with ligands capable of intramolecular donation ( C s point group symmetry) give rise to a typical pattern of the protons at the Cp moieties; i.e., the two signals for all α-protons appear upfield with significantly different chemical shifts, whereas both peaks for all β-protons appear downfield and are either overlapping or exhibit just a small difference in chemical shifts. ,,, For example, compound 7 shows three signals in the typical Cp range at δ 4.22 (2 α-H), 4.29 (2 α-H), and 4.62 (4 β-H), while the aluminum compound 8 shows four signals at δ 4.10 (2 α-H), 4.28 (2 α-H), 4.66 (2 β-H), and 4.68 (2 β-H). These patterns and the chemical shifts are comparable with those for other galla- or alumina[1]ferrocenophanes which were isolable (e.g., bridging moiety Ga(Pytsi), δ 4.08 (2 α-H), 4.45 (2 α-H), 4.61 (2 β-H), 4.65 (2 β-H); bridging moiety Al(Pytsi), δ 3.91 (2 α-H), 4.31 (2 α-H), 4.64 (2 β-H), 4.68 (2 β-H)).…”

Section: Resultsmentioning

confidence: 99%

“…The bulkiness of the ligand R plays a crucial role, not only for the outcome of these salt metathesis reactions but also for the reactivity of the resulting sandwich compounds. If the bulky, intramolecularly coordinating, trisyl- type ligands Pytsi and Me 2 Ntsi (Chart ) were employed, strained aluminum- or gallium-bridged [1]vanadarenophanes, [1]chromarenophanes, [1]ferrocenophanes, , [1]molybdarenophanes, and [1]ruthenocenophanes could be isolated. However, if nonbulky ligands of the “one-armed” phenyl type (Ar′; Chart ) were used to stabilize group 13 elements in bridging positions, nonstrained [1.1]metallacyclophanes resulted from respective salt metathesis reactions …”

Section: Introductionmentioning

confidence: 99%

Synthesis of Intramolecularly Coordinated Aluminum and Gallium Compounds for the Preparation of [1]Ferrocenophanes

et al. 2011

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Two different ligands equipped with pyridine donor moieties, (2-H4C5N)(Me3Si)2C (R′) and (2-H4C5N)(Me3Si)(Me)C (R″), were applied in the preparation of aluminum and gallium dihalides that could be employed in salt metathesis reactions with 1,1′-dilithioferrocene. R′GaCl2 (1) was accessible from LiR′ and GaCl3 (21%), whereas the respective aluminum compound R′AlCl2 (3 Cl ) and its bromine analogue R′AlBr2 (3 Br ) could only be prepared through the intermediate species R′AlMe2 (2) by the addition of Me3SnCl and Br2, respectively. An improved synthesis of the ligand precursor R″H, (2-H4C5N)(Me3Si)(Me)CH), is described. Attempted syntheses of R″AlX2 starting from LiR″ and AlCl3 or ClAlMe2 gave the bis-ligand compounds R″2AlCl (4) and R″2AlMe (6), respectively. As deduced from proton NMR spectroscopy, the formation of 6 proceeded through the intermediate R″AlMe2 (5) and was facilitated in the presence of tmeda. The formation of 4 and 6, respectively, is diastereospecific, as only rac isomers were formed (R,R-Λ and S,S-Δ). Molecular structures of compounds 2, 3 Br , and 6 were determined by single-crystal X-ray analysis. Salt metathesis of the dihalides 1, 3 Cl , and 3 Br with 1,1′-dilithioferrocene gave the respective galla- and alumina[1]ferrocenes (7 and 8). Neither compound could be isolated and were only identified by 1H NMR spectroscopy in reaction mixtures. Analytically pure polymers (7 n ) of low molecular weight were found and investigated by DLS (M w = 8.3 ± 2.5 kDa; DPw = 17 ± 5).

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“…Recently, we had shown that the steric requirements of the ligand that is attached to the group-13 element plays an important role for aluminum- and gallium-bridged metallacyclophanes. While the bulky trisyl -based ligands Pytsi and Me 2 Ntsi (Figure ) stabilized strained [1]metallacyclophanes, – the slimmer “one-armed phenyl” ligand Ar′ or p- t BuAr′ (Figure ) resulted exclusively in unstrained [1.1]metallacyclophanes (Figure ). ,, Against this background it was a surprise that a [1.1]ferrocenophane ( 3 ) instead of an expected [1]ferrocenophane was formed (eq ). How can this result be rationalized?…”

Section: Discussionmentioning

confidence: 99%

“…In the course of our investigation of aluminum- or gallium-bridged metallacyclophanes, we discovered that the bulkiness of the ligand that is attached to the bridging group-13 element plays a crucial role. When the bulky trisyl -based ligands Pytsi or Me 2 Ntsi (Figure ) were applied, strained [1]metallacyclophanes were formed; – the use of the slimmer “one-armed phenyl” ligand Ar′ or p- t BuAr′ (Figure ) resulted in unstrained [1.1]metallacyclophanes. ,, Among the latter species are the first [1.1]metallacyclophanes of bis(benzene) complexes, i.e., aluminum- and gallium-bridged [1.1]chromarenophanes and [1.1]molybdarenophanes (Figure ) …”

Section: Introductionmentioning

confidence: 99%

The Dynamic Indium-Bridged [1.1]Ferrocenophane [(Me₂Ntsi)In(C₅H₄)₂Fe]₂

et al. 2008

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Salt metathesis reaction between Li(thf)(Me 2 Ntsi) [Me 2 Ntsi ) C(SiMe 3 ) 2 SiMe 2 NMe 2 ] and InX 3 gave the new indium dihalides (Me 2 Ntsi)InX 2 [X ) Cl (2a), I (2b); isolated yields 34% (2a) and 44% (2b)]. Single-crystal X-ray analysis revealed that 2a is a Cl-bridged dimer, while 2b is monomeric. Salt metathesis reaction between dilithioferrocene and 2a and 2b, respectively, gave the new indium-bridged [1.1]ferrocenophane [(Me 2 Ntsi)In(η 5 -C 5 H 4 ) 2 Fe] 2 (3). Only when 2a was used, could analytically pure 3 be isolated (45%). Revealed by a single-crystal X-ray analysis, compound 3 crystallized as an anti isomer (C i symmetry). The diinda[1.1]ferrocenophane 3 showed fluxional behavior in solution. The proton NMR spectrum of 3 revealed only five singlets at ambient temperature (500 MHz, 25 °C, C 6 D 6 or C 7 D 8 ): one singlet for SiMe 2 , SiMe 3 , and NMe 2 each and two singlets for the 16 Cp protons. These facts can be rationalized by assuming a fast degenerate isomerization from one anti isomer to another anti isomer (time-averaged D 2h symmetry). The two singlets at 4.43 and 4.45 ppm (500 MHz, 25 °C, C 7 D 8 ) of the Rand β-protons broadened at lower temperature and coalesced at 5 °C. By lowering the temperature further, two sets of signals emerged and became clearly visible at -30 °C, with each set consisting of four singlets for the Cp protons of equal intensity. Consistent with the splitting of the Cp signals, all other signals split in two sets of three singlets, indicating C s symmetric Me 2 Ntsi moieties. These data show that the [1.1]ferrocenophane 3 exists as a mixture of two isomers in toluene solutions (2:1 ratio at -30 °C). Assuming that the thermodynamically favored isomer was found in the crystal lattice, the most intense set of signals was assigned to the anti isomer of 3, while the less intense set of signals was assigned to a syn isomer. The already known diinda[1.1]ferrocenophane {[2-(Me 2 NCH 2 )C 6 H 4 ]In(η 5 -C 5 H 4 ) 2 Fe} 2 (1c) was revisited. Compound 1c did not reveal any fluxional behavior in 1D 1 H NMR spectra at ambient temperature, but EXSY spectroscopy revealed an occurring anti-to-anti isomerization of 1c in solution. A cyclic voltammogram of 3 in thf/0.1 M [Bu 4 N][PF 6 ] showed only an irreversible oxidation. A rationale is given why the reaction of (Me 2 Ntsi)InX 2 [X ) Cl (2a), I (2b)] with dilithioferrocene gave a [1.1]ferrocenophane, as similar reactions of (Me 2 Ntsi)ECl 2 (E ) Al, Ga) with dilithioferrocene gave strained [1]ferrocenophanes.

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The galla[1]ferrocenophane {[dimethyl(2-pyridyl)silyl]bis(trimethylsilyl)methyl-κ²C,N}(ferrocene-1,1′-diyl)gallium(III)

Abstract: Key indicators: single-crystal X-ray study; T = 173 K; mean (C-C) = 0.005 Å; R factor = 0.044; wR factor = 0.088; data-to-parameter ratio = 18.6.

Cited by 9 publications

References 13 publications

A Flexible Approach to Strained Sandwich Compounds: Chiral [1]Ferrocenophanes with Boron, Gallium, Silicon, and Tin in Bridging Positions

A Flexible Approach to Strained Sandwich Compounds: Chiral [1]Ferrocenophanes with Boron, Gallium, Silicon, and Tin in Bridging Positions

Synthesis of Intramolecularly Coordinated Aluminum and Gallium Compounds for the Preparation of [1]Ferrocenophanes

The Dynamic Indium-Bridged [1.1]Ferrocenophane [(Me₂Ntsi)In(C₅H₄)₂Fe]₂

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The galla[1]ferrocenophane {[dimethyl(2-pyridyl)silyl]bis(trimethylsilyl)methyl-κ2C,N}(ferrocene-1,1′-diyl)gallium(III)

Abstract: Key indicators: single-crystal X-ray study; T = 173 K; mean (C-C) = 0.005 Å; R factor = 0.044; wR factor = 0.088; data-to-parameter ratio = 18.6.

Cited by 9 publications

References 13 publications

A Flexible Approach to Strained Sandwich Compounds: Chiral [1]Ferrocenophanes with Boron, Gallium, Silicon, and Tin in Bridging Positions

A Flexible Approach to Strained Sandwich Compounds: Chiral [1]Ferrocenophanes with Boron, Gallium, Silicon, and Tin in Bridging Positions

Synthesis of Intramolecularly Coordinated Aluminum and Gallium Compounds for the Preparation of [1]Ferrocenophanes

The Dynamic Indium-Bridged [1.1]Ferrocenophane [(Me2Ntsi)In(C5H4)2Fe]2

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The galla[1]ferrocenophane {[dimethyl(2-pyridyl)silyl]bis(trimethylsilyl)methyl-κ²C,N}(ferrocene-1,1′-diyl)gallium(III)

The Dynamic Indium-Bridged [1.1]Ferrocenophane [(Me₂Ntsi)In(C₅H₄)₂Fe]₂