Homodinuclear multiple-bonded neutral Al compounds, aluminum analogues of alkenes, have been a notoriously difficult synthetic target over the past several decades. Herein, we report the isolation of a stable neutral compound featuring an Al═Al double bond stabilized by N-heterocyclic carbenes. X-ray crystallographic and spectroscopic analyses demonstrate that the dialuminum entity possesses trans-planar geometry and an Al-Al bond length of 2.3943(16) Å, which is the shortest distance reported for a molecular dialuminum species. This new species reacts with ethylene and phenyl acetylene to give the [2+2] cycloaddition products. The structure and bonding were also investigated by detailed density functional theory calculations. These results clearly demonstrate the presence of an Al═Al double bond in this molecule.
A long-term dream comes true: An acyclic, neutrally charged silanone at last! Here, we report on the first examples of isolable acyclic, neutral, three-coordinate silanones 2 with indefinite stability as solids and lifetimes in solution of up to 2 days. The electronic properties of the Si═O bond were investigated via DFT calculations and revealed the π-donating N-heterocyclic imino (NHI) and σ-donating silyl groups as key factors for their enhanced stability. Besides initial reactivity studies of 2 toward CO and methanol, different isomerization pathways depending on the silyl substitution pattern were found. For 2a (R = TMS), a 1,3-silyl shift gave an intermediary disilene, which was trapped as unique NHC-disilene adduct 6. For the more stable silanone 2b (R = t-Bu), a selective transformation to the first reported room temperature stable, acyclic, two-coordinate N,O-silylene 7 exhibiting a fascinating siloxy ligand was observed. Both compounds were fully characterized experimentally and their bonding features were analyzed by theoretical calculations.
We present the first [2]rotaxane featuring a functional organometallic host. In contrast to the known organic scaffolds, this assembly shows a high post-synthetic modifiability. The reactivity of the Ag pillarplex host is fully retained, as is exemplified by the first transmetalation in a rotaxane framework to provide the respective Au analogue. Additionally, a transformation under acidic conditions to give a purely organic [3]rotaxane is demonstrated which is reversible upon addition of a suitable base, rendering the assembly a pH-dependent switch. Hereby, it is shown that the mechanically interlocked nature of the system enhances the kinetic stability of the NHC host complex by a factor of >1000 and corresponds to the first observation of a stabilizing "rotaxand effect".
Silylenes have recently
shown fascinating reactivity patterns, which are normally observed
almost exclusively for transition-metal complexes. In particular,
very reactive representatives are considered to be promising candidates,
which may become powerful and economical alternatives for catalytic
applications in the future. Here, we present the isolation of an equilibrium
mixture consisting of a tetrasilyldisilene and its isomeric bis(silyl)silylene,
the first isolable silylene of this type. Preliminary investigations
demonstrate the extreme inherent reactivity via facile small-molecule
activation even under very mild conditions. Thus, the oxidative addition
of challenging targets such as H2 and NH3 was
achieved. In addition, by synthesizing donor-stabilized bis(silyl)silylenes
we gained further insights into the disilene–silylene rearrangement
by 1,2-silyl migrations. Thorough theoretical calculations support
the observed experimental results.
Upon irradiation with visible light, the NiII complex 1 is converted to the reduced form 2 in the presence of NEt3. The Ni-based photosensitizer catalyzes the cyclization of a bromoalkyl-substituted indole.
Novel octanuclear NHC complexes of gold(I) and silver(I) form metallocavitand structures with very defined tubular cavities and are able to selectively host linear molecules, exemplarily demonstrating 1,8-diaminooctane as a model guest molecule. The solubility of the host-compounds is easily adjusted by simple anion exchange reactions so that the compounds can be made soluble in water wherein they exhibit a high longtime stability. The gold(I) complex is emissive in aqueous solutions, which enables a determination of the binding constant to the diamine via luminescence quenching. The host-guest interaction was further investigated by isothermal titration calorimetry, NMR spectroscopy, and X-ray crystallography.
The synthesis of copper, gold, nickel, palladium, platinum, and iron complexes with open chain tetra-N-heterocyclic carbene (NHC) ligands via transmetalation using silver NHC complexes is presented. The obtained complexes show differing coordination geometries depending on both ligand structure and metal. While the complexes of the coinage metals form di- or tetranuclear structures, the group 10 metal complexes exhibit a distorted square planar coordination geometry at the metal centers. In the case of iron an enhanced flexibility of the ligand - caused by a longer alkyl bridge - leads to octahedral complexes with a sawhorse-type coordination by the tetracarbene ligand and two cis acetonitrile ligands. To the best of our knowledge, this is the first known example of a tetracarbene ligand in sawhorse-type coordination within an octahedral coordination sphere. The remaining cis-labile sites are prone to exchange reactions as shown by addition of trimethylphosphine.
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