Ian Rilatt scite author profile

Ian Rilatt

5Publications

68Citation Statements Received

211Citation Statements Given

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University of Sheffield

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Kinetic Studies on the Stability and Reactivity of β-Amino Alkylzinc Iodides Derived from Amino Acids

Rilatt

Jackson

2008

J. Org. Chem.

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Beta-amino alkylzinc iodides are intrinsically unstable toward beta-elimination and protonation. The aim of this study was to determine the rates of these processes and also to understand how the reactivity of a range of beta-amino alkylzinc iodides in Negishi cross-coupling reactions is influenced by the presence of functional groups within the zinc reagent. Decomposition of beta-benzamido alkylzinc iodides occurs by protonation, and the first-order rate constant for the self-protonation of the carbon-zinc bond in reagent 4b was determined to be 5.2 x 10(-6) s(-1) (at 291 K). In contrast, the carbamate derivative 2 decomposes by a first-order elimination process. The homologous reagent 3, derived from glutamic acid, decomposes more quickly by beta-elimination, with a first-order rate constant of 24 x 10(-6) s(-1) (at 291 K). Reagents 23 and 25, in which the Boc group has been replaced with a trifluoroacetyl group, are more stable toward beta-elimination than the corresponding reagents 2 and 3, a striking outcome given that the trifluoroacetamido group is a better leaving group. Moreover, this replacement also changes the mechanism of the elimination to a second order process. Pseudo-second-order rate constants for the Negishi cross-coupling of reagents 2, 3, 23, and 25 with iodobenzene have been determined, revealing the higher reactivity of the glutamic acid-derived reagents 3 and 25. The main factor influencing reactivity, therefore, is determined to be the proximity of the ester group, rather than the nature of the nitrogen protecting group. Finally, beta-amino alkylzinc iodides 46-48 containing Weinreb amides have been prepared, rate constants for their decomposition through elimination determined, and their synthetic potential for the preparation of beta-amino ketones established.

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The rate of elimination of a β-amino zinc reagent is reduced by using a better leaving group

Jackson

Rilatt

Murray³

2003

Chem. Commun.

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Direct synthesis of unprotected phenols using palladium-catalysed cross coupling reactions of functionalised organozinc reagents

Jackson

Rilatt

Murray³

2004

Org. Biomol. Chem.

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Development and Applications of Amino Acid Derived Organometallics

Rilatt¹,

Caggiano²,

Jackson³

2005

Synlett

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This Account describes the discovery and development of a family of organometallic reagents derived from naturally occurring a-amino acids that have found widespread use in the stereocontrolled synthesis of non-natural analogues of proteinogenic amino acids. The general approach that we have taken involves the conversion of the side chain of enantiomerically pure naturally occurring amino acids, such as serine, aspartic acid and glutamic acid, into the corresponding primary alkyl iodide, followed by conversion into the corresponding organozinc reagents. Subsequent palladium-or copper-catalysed reactions of these reagents allow the synthesis of a wide variety of functionalised a-, b-and g-amino acid derivatives, without loss of stereochemical integrity. Insights gained from spectroscopic and kinetic studies into the stability of functionalised organozinc reagents are included.

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Development and Applications of Amino Acid Derived Organometallics

2006

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Ian Rilatt

Kinetic Studies on the Stability and Reactivity of β-Amino Alkylzinc Iodides Derived from Amino Acids

The rate of elimination of a β-amino zinc reagent is reduced by using a better leaving group

Direct synthesis of unprotected phenols using palladium-catalysed cross coupling reactions of functionalised organozinc reagents

Development and Applications of Amino Acid Derived Organometallics

Development and Applications of Amino Acid Derived Organometallics

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