M. F. Ellis scite author profile

M. F. Ellis

4Publications

20Citation Statements Received

5Citation Statements Given

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University of Surrey

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The electronic structure of borabenzene: Combination of an aromatic ?-sextet and a reactive ?-framework

Karadakov

Ellis

Gerratt

et al. 1997

Int. J. Quant. Chem.

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ŽThe electronic structure of borabenzene C H B, known also as borinane, borinine, Ž . borine is studied using modern valence bond theory in its spin-coupled SC form. Three different types of SC wave functions-with six active orbitals and with four and eight active orbitals-are used to describe the system of the molecule and the -bond framework around the boron atom. It is demonstrated that the SC picture of the space in borabenzene is very similar to that in benzene: The spins of six distorted nonorthogonal 2 p orbitals are combined in a spin-coupling pattern involving two dominating Kekuletype and three less important Dewar-type Rumer spin functions. This indicates that it is appropriate to consider the -electron sextet in borabenzene as aromatic and that the reason for the reactivity of this molecule should lie with its framework. The two SC

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Substituent effects on the pK a values and rates of hydrolysis of arylmethylene-erythromycylamines

Cockerill¹,

Ellis²,

Rackham³

et al. 1973

J. Chem. Soc., Perkin Trans. 2

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The pK, values and rates of hydrolysis of a series of N-benzylidene derivatives of the macrolide antibiotic, erythromycylamine (I) have been measured. Anomalies in the correlations of the pK, values with the Hammett equation and of the mechanism of hydrolysis with that of an analogous series of N-benzylidene-I ,I -dimethylethylamines have been explained in terms of steric and electronic interactions involving the macrolide ring and the unusual effect of orth omet h oxys u bs ti t u e n ts.THE mechanism of hydrolysis of Schiff's bases has been well established and reviewed by Jencks.l For subst it ut ed N-benzylidene-1,l &met h ylet hylamines ,2 the rate of hydrolysis is independent of pH under basic conditions (pH >S), a consequence of rate-determining attack of hydroxide ion on the protonated Schiff's base 2-5 which is present in low concentration. Under inore acidic conditions, in which the Schiff's bases are predominantly protonated, rate-determining attack of water, rather than hydroxide, on the protonated Schiff's base becomes the major reaction path. In strongly acidic solution, a change in the rate-determining step to elimination from the carbinolamine intermediate occurs and the rate decreases with decreasing pH.2-6 A similar rate profile is found for the hydrolysis of substituted benzylideneanilines,6-l0 but attack of hydroxide on the free imine, competes with the pH-independent reaction at high pH (> 12),6 as is also the case for salicylaldehyde derivatives. l1, l2The dibasic amine, erythromycylamine (1) (ENH,) has pK, values of 8.7 and 9~9.l~ Consequently, the concentration of free base at physiological pH is extremely small. Conversion into a Schiff's base derivative would be expected to decrease the basicity of the primary amine group and to increase the concentration

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ChemInform Abstract: SUBSTITUENTENEFFEKTE BEI DEN PK(A)‐WERTEN UND HYDROLYSEGESCHWINDIGKEITEN VON N‐ARYLMETHYLEN‐ERYTHROMYCYLAMINEN

Cockerill¹,

Ellis²,

Rackham³

et al. 1973

Chemischer Informationsdienst

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The electronic structure of borabenzene: Combination of an aromatic π‐sextet and a reactive σ‐framework

Karadakov

Ellis

Gerratt

et al. 1997

Int. J. Quant. Chem.

View full text Add to dashboard Cite

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M. F. Ellis

The electronic structure of borabenzene: Combination of an aromatic ?-sextet and a reactive ?-framework

Substituent effects on the pK a values and rates of hydrolysis of arylmethylene-erythromycylamines

ChemInform Abstract: SUBSTITUENTENEFFEKTE BEI DEN PK(A)‐WERTEN UND HYDROLYSEGESCHWINDIGKEITEN VON N‐ARYLMETHYLEN‐ERYTHROMYCYLAMINEN

The electronic structure of borabenzene: Combination of an aromatic π‐sextet and a reactive σ‐framework

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