240411-83-0

Basic information

• Product Name: [Fe2(η-C5H5)2(CO)(CNMe)(μ-CNC6H3Et2-2,6)(μ-CNMe2)]BPh4
• CAS NO: 240411-83-0
• Molecular Weight: 845.498
• Mol File: 240411-83-0.mol

Chemical Properties

• CAS DataBase Reference: [Fe2(η-C5H5)2(CO)(CNMe)(μ-CNC6H3Et2-2,6)(μ-CNMe2)]BPh4(CAS DataBase Reference)
• NIST Chemistry Reference: [Fe2(η-C5H5)2(CO)(CNMe)(μ-CNC6H3Et2-2,6)(μ-CNMe2)]BPh4(240411-83-0)
• EPA Substance Registry System: [Fe2(η-C5H5)2(CO)(CNMe)(μ-CNC6H3Et2-2,6)(μ-CNMe2)]BPh4(240411-83-0)

Safety Data

• Hazardous Substances Data: 240411-83-0(Hazardous Substances Data)

Upstream product

• 1493-13-6 trifluorormethanesulfonic acid 
• 143-66-8 sodium tetraphenyl borate 

Relevant articles and documents

The reaction of [Fe2(η-C5H5) 2(CO)(CNMe)(μ-CO)(μ-CNMe2)]+ and related salts with trifluoromethanesulphonic acid, HOSO2CF3: Structure of cis-[Fe2(η-C5H5)2(CO) 2(μ-CNMe) (μ-CNMe2)] [BPh4]

[Fe2(η-C5H5) 2(L)(CNMe)(μ-CO)(ν-CNMe2)][SO3CF 3] where L = CO reacts with HOSO2CF3 in chloroform solution at room temperature (r.t.) to give [Fe2(η-C5H5)2(CO) 2{μ-CN(H)Me}(μ-CNMe2)][SO3CF 3]2 (reaction (i)). This salt readily and reversibly loses a proton to form [Fe2(η-C5H5)2(CO) 2(μ-CNMe)(μ-CNMe2)][SO3CF3] (reaction (ii)) which, in solution, slowly reverts to [Fe2(η-C5H5) 2(CO)(CNMe)(μ-CO)(μ-CNMe2)][SO3CF 3] under the influence of UV radiation (reaction (iii)) although it can be trapped by reaction with RX (R = H or alkyl; X- = I- or [SO3CF3]-) to give [Fe2(η-C5H5)2(CO) 2{μ-CN(R)Me}(μ-CNMe2)][SO3CF 3]2 (reaction (iv)). In reactions closely related to (i) and (iii), [Fe2(η-C5H5) 2(L)(CN)(μ-CO)(μ-CNMe2)] (L = CO or CNMe) is converted by HOSO2CF3 to [Fe2(η-C5H5) 2(L)(CO)(μ-CNH2)(μ-CNMe2)][SO 3CF3]2 (reaction (v)); this is reversed by deprotonation and no intermediates are observed (reaction (vi)). The scope and limitations of these reactions have been investigated. Replacement of L by isocyanides shows that the ease with which t-CNR is converted to μ-CN(H)R (reactions (i) and (v)) decreases along the series CNR = CN-/CNH ? CNXy′(Xy′ = C6H3Et2-2,6) > CNMe > CNEt which reflects the μ-seeking ability of the CNR ligands and not their basicity. Reaction (i) does not take place with cis constrained complexes where the two cyclopentadienyl ligands are linked by a -CH2C(O)-group, in donor solvents such as acetonitrile, or with weaker acids such as CF3CO2H or CH3CO2H. Reaction (iii) does not take place when L = CNMe or CNEt, or when μ-CNMe is replaced by μ-CNXy′ even when L = CO. Reaction (vi) always takes place; however, if L = CNMe either it or the t-CO may end-up in the μ-site but the latter is preferred. During reactions (i), (iii), (v) and (vi), cis?trans isomerism may accompany ligand migration, but the cis is always the predominant product. Spectroscopic data is presented, assigned and used to distinguish between these isomers. Most is straight-forward, but the IR spectrum of [Fe2(η-C5H5)2(CO) 2(μ-CNXy′)(μ-CNMe2)][SO3CF 3] is very unusual as in solution its ν(μ-C-NXy′) absorption band has a very high frequency, > 1900 cm-1, and is very broad, ca. 200 cm-1. The structure of cis-[Fe2(η-C5H5)2(CO) 2(μ-CNMe)(μ-CNMe2)][BPh4] has been determined by X-ray crystallography.