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Active metal template synthesis of [2]catenanes

Active metal template synthesis of [2]catenanes
Active metal template synthesis of [2]catenanes
The synthesis of [2]catenanes by single macrocyclization and double macrocyclization strategies using Cu(I) ions to catalyze covalent bond formation while simultaneously acting as the template for the mechanically interlocked structure is reported. These “active metal template” strategies employ appropriately functionalized pyridine ether or bipyridine ligands and either the CuAAC “click” reaction of azides with terminal alkynes or the Cu(I)-mediated Cadiot?Chodkiewicz heterocoupling of an alkyne halide with a terminal alkyne. Using one macrocyclic and one acyclic building block, heterocircuit (the rings are constitutionally different) [2]catenanes are produced via the single macrocyclization route in up to 53% yield by optimizing the reaction conditions and relative stoichiometry of the starting materials. Alternatively, with the active template CuAAC reaction, a single acyclic unit can be used to form a homocircuit (two identical rings) [2]catenane in 46% yield through a one-pot, double macrocyclization, procedure. Remarkably, <7% of the corresponding noninterlocked macrocycle is isolated from this reaction, indicating the efficacy of Cu(I) as both a template for the catenane and a catalyst for covalent bond formation in the reaction.
0002-7863
15924-15929
Goldup, Stephen M.
0a93eedd-98bb-42c1-a963-e2815665e937
Leigh, David A.
826353b6-267f-44cd-a7e7-adf0c34f66c9
Long, Tao
24b49c0e-93b7-41db-8392-a0cdeedf805c
McGonigal, Paul R.
c76f3367-e206-42ae-b433-dd5fa6473142
Symes, Mark D.
c4bdd59d-9323-425f-8bb6-55259c4b9551
Wu, Jhenyi
edb8091f-9636-4d6a-a5f7-87abf825d103
Goldup, Stephen M.
0a93eedd-98bb-42c1-a963-e2815665e937
Leigh, David A.
826353b6-267f-44cd-a7e7-adf0c34f66c9
Long, Tao
24b49c0e-93b7-41db-8392-a0cdeedf805c
McGonigal, Paul R.
c76f3367-e206-42ae-b433-dd5fa6473142
Symes, Mark D.
c4bdd59d-9323-425f-8bb6-55259c4b9551
Wu, Jhenyi
edb8091f-9636-4d6a-a5f7-87abf825d103

Goldup, Stephen M., Leigh, David A., Long, Tao, McGonigal, Paul R., Symes, Mark D. and Wu, Jhenyi (2009) Active metal template synthesis of [2]catenanes. Journal of the American Chemical Society, 131 (43), 15924-15929. (doi:10.1021/ja9070317).

Record type: Article

Abstract

The synthesis of [2]catenanes by single macrocyclization and double macrocyclization strategies using Cu(I) ions to catalyze covalent bond formation while simultaneously acting as the template for the mechanically interlocked structure is reported. These “active metal template” strategies employ appropriately functionalized pyridine ether or bipyridine ligands and either the CuAAC “click” reaction of azides with terminal alkynes or the Cu(I)-mediated Cadiot?Chodkiewicz heterocoupling of an alkyne halide with a terminal alkyne. Using one macrocyclic and one acyclic building block, heterocircuit (the rings are constitutionally different) [2]catenanes are produced via the single macrocyclization route in up to 53% yield by optimizing the reaction conditions and relative stoichiometry of the starting materials. Alternatively, with the active template CuAAC reaction, a single acyclic unit can be used to form a homocircuit (two identical rings) [2]catenane in 46% yield through a one-pot, double macrocyclization, procedure. Remarkably, <7% of the corresponding noninterlocked macrocycle is isolated from this reaction, indicating the efficacy of Cu(I) as both a template for the catenane and a catalyst for covalent bond formation in the reaction.

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More information

Published date: 6 October 2009
Organisations: Organic Chemistry: Synthesis, Catalysis and Flow

Identifiers

Local EPrints ID: 370661
URI: http://eprints.soton.ac.uk/id/eprint/370661
DOI: doi:10.1021/ja9070317
ISSN: 0002-7863
PURE UUID: acd5bee7-98be-4657-8669-79fbcfc1024d
ORCID for Stephen M. Goldup: ORCID iD orcid.org/0000-0003-3781-0464

Catalogue record

Date deposited: 03 Nov 2014 13:45
Last modified: 14 Mar 2024 18:20

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Contributors

Author: Stephen M. Goldup ORCID iD
Author: David A. Leigh
Author: Tao Long
Author: Paul R. McGonigal
Author: Mark D. Symes
Author: Jhenyi Wu

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