Lewis Acid Chemistry at the Edge of Ferrocene

Mössbauer data that are consistent with rapid electron transfer (one ... These observations suggest applications in anion recognition and Lewis ac...
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Lewis Acid Chemistry at the Edge of Ferrocene Frieder Jäkle, Department of Chemistry Rutgers University, Newark, NJ 07102 Ferrocene-based bidentate Lewis acids have been investigated as threedimensional, redox-active analogs of more well-established bidentate Lewis acids that utilize phenylene and naphthalene scaffolds. Diboradiferrocene

Dication 2+ MeCN Ph B FeIII

III Ph Fe

Oxidation in MeCN

Ph

NCMe

Fe

+

Oxidation In CH2Cl2

Fe

B

B

Mixed-Valent Cation Ph

B Ph

1

These observations suggest applications in anion recognition and Lewis acid catalysis - studies that are currently under way.

Ph

X = I5 X = PF6 X = SbF6 X = B(C6F5)4

NIR Spectrum of [1+]SbF6 0.8 0.6 0.4 0.2 0 800

1200

1600

2000

Wavelength / nm

X–

[1+]I5 [1+]PF6 [1+]SbF6 [1+][B(C6F5)4]

Mössbauer Data of [1+]B(C6F5)4

1 Absorbance / a.u.

Left: In the presence of donor solvents dioxidation is observed. The dication is highly Lewis acidic as evident from the formation of stable complexes with acetonitrile - in sharp contrast to the neutral diboradiferrocene !

B

Fe

Right: Mono-oxidation of the diboradiferrocene (1) in noncoordinating solvents leads to an intriguing mixed-valent cation (1+), which shows distinct NIR bands in solution and, with B(C6F5)4 as the counterion, Mössbauer data that are consistent with rapid electron transfer (one set of averaged signals).

Fe

B

2400

Li[B(C6F5)4