Acids Lewis acid-base model

The Lewis acid-base model is the most general of the three we have considered. 

Many years ago, geochemists recognized that whereas some metallic elements are found as sulfides in the Earth s crust, others are usually encountered as oxides, chlorides, or carbonates. Copper, lead, and mercury are most often found as sulfide ores Na and K are found as their chloride salts Mg and Ca exist as carbonates and Al, Ti, and Fe are all found as oxides. Today chemists understand the causes of this differentiation among metal compounds. The underlying principle is how tightly an atom binds its valence electrons. The strength with which an atom holds its valence electrons also determines the ability of that atom to act as a Lewis base, so we can use the Lewis acid-base model to describe many affinities that exist among elements. This notion not only explains the natural distribution of minerals, but also can be used to predict patterns of chemical reactivity. 

IBLG See questions from The Lewis Acid-Base Model ... 

Use the Lewis acid-base model to explain the following reaction. 

The Lewis acid-base model removes that restriction. A Lewis acid is a species that in an acid-base reaction, accepts an electron pair. In this reaction, a Lewis base donates the electron pair. 

According to the Haaland model, an increase of the Lewis acid-base interaction is accompanied by a decrease of both the R—Al—R bond angles and the Al—R bond distances. However, comparisons are possible only for adducts containing the same alane to exclude any steric or electronic effects of... 

The synthesis of three silaketenimines 105a-c prompted Tokitoh and Okazaki to calculate the optimized geometry of a model compound, PhiSiCNPh. This model reinforced that 105a-c are truly Lewis acid-base pairs, with the isocyanide donating its carbon lone pair to an empty p-orbital perpendicular to the lone pair... 

Transmetalation of the perrhenate/aluminosilsesquioxane cube model with SnMe4 is considerably more exothermic than for the perrhenate/silsesquioxane cube model. A similar grafted trimethyltin fragment is formed, as is MeReOs however, the latter is not liberated. It remains bound to the aluminosilsesquioxane cube via the Lewis acid-base interaction with the A1 center. The optimized structure also contains a Lewis acid-base interaction between Re and an adjacent framework oxygen... 

Owing to the strength of the B—F bond, die BF3 complexes are of widespread use as model compounds, for investigating Lewis acid-base interactions and the nature of the donor-acceptor bond. BF3 is frequently employed as a standard Lewis acid, for the quantitative characterization of the Lewis basicity of donor mojecules.62,63 The gas-phase equilibrium constants for some BF3 complexes are shown in Table 5. 

As with many catalytic systems, additives can play an important role. During optimization of the asymmetric rearrangement of cyclopentenyl tertiary ethers to chiral cyclohexenyl tertiary ethers, Hoveyda found a strong solvent effect on the enantioselectivity of the reaction using (97b). Lewis basic (see Lewis Acids Bases) additives were used to modify the catalyst since (97i) is Lewis acidic and coordination could change the equilibration of the Mo-alkyhdene isomers and, thus, could alter the enantioselectivity. Coordination of Lewis base to the metal center might also change the fit of the chiral pocket. Addition of 10 equiv (vs. substrate) of THF substantially increased the enantiomeric excess of the product in the model transformation (Table 10). ft was surmised that... 

Retention of Rohrschneider-McReynolds standards of selected chiral alcohols and ketones was measured to determine the thermodynamic selectivity parameters of stationary phases containing (- -)-61 (M = Pr, Eu, Dy, Er, Yb, n = 3, R = Mef) dissolved in poly(dimethylsiloxane) . Separation of selected racemic alcohols and ketones was achieved and the determined values of thermodynamic enantioselectivity were correlated with the molecular structure of the solutes studied. The decrease of the ionic radius of lanthanides induces greater increase of complexation efficiency for the alcohols than for the ketone coordination complexes. The selectivity of the studied stationary phases follows a common trend which is rationalized in terms of opposing electronic and steric effects of the Lewis acid-base interactions between the selected alcohols, ketones and lanthanide chelates. The retention of over fifty solutes on five stationary phases containing 61 (M = Pr, Eu, Dy, Er, Yb, n = 3, R = Mef) dissolved in polydimethylsiloxane were later measured ". The initial motivation for this work was to explore the utility of a solvation parameter model proposed and developed by Abraham and coworkers for complexing stationary phases containing metal coordination centers. Linear solvation... 

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