Two axles threaded using a single template site: active metal template macrobicyclic [3]rotaxanes
Two axles threaded using a single template site: active metal template macrobicyclic [3]rotaxanes
Template approaches to rotaxanes normally require at least n - 1 template sites to interlock n components. Here we describe the one-pot synthesis of [3]rotaxanes in which a single metal template site induces formation of axles through each cavity of a bicyclic macrocycle. Central to the approach is that a portion of the bicyclic molecule acts as a ligand for a transition metal ion that mediates covalent bond formation through one or other macrocyclic cavity, depending on the ligand's orientation, making a mechanical bond. The ligand can then rotate so that the transition metal can catalyze the formation of a second axle through the other macrocycle. Using this strategy with the Cu(I)-catalyzed azide-alkyne cycloaddition (the CuAAC reaction) generates a [3]rotaxane with two identical axles in up to 86% yield. [3]Rotaxanes with two different axles threaded through the macrobicyclic rings can also be created using a single template site, either by having copper(I) sequentially form both mechanical bonds (via the CuAAC reaction) using different sets of building blocks for each axle or by using two different reactions catalyzed by two different metal ions: a palladium(II)-mediated alkyne homocoupling to assemble the first thread through one cavity, followed by a copper(I)-mediated CuAAC reaction to form the second axle through the other ring.
315-320
Goldup, Stephen M.
0a93eedd-98bb-42c1-a963-e2815665e937
Leigh, David A.
826353b6-267f-44cd-a7e7-adf0c34f66c9
McGonigal, Paul R.
c76f3367-e206-42ae-b433-dd5fa6473142
Ronaldson, Vicki E.
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Slawin, Alexandra M.Z.
45b99a30-c91c-4306-be37-6b7b0ec0affd
13 January 2010
Goldup, Stephen M.
0a93eedd-98bb-42c1-a963-e2815665e937
Leigh, David A.
826353b6-267f-44cd-a7e7-adf0c34f66c9
McGonigal, Paul R.
c76f3367-e206-42ae-b433-dd5fa6473142
Ronaldson, Vicki E.
d345332b-8a06-48a5-88c9-74d444686af7
Slawin, Alexandra M.Z.
45b99a30-c91c-4306-be37-6b7b0ec0affd
Goldup, Stephen M., Leigh, David A., McGonigal, Paul R., Ronaldson, Vicki E. and Slawin, Alexandra M.Z.
(2010)
Two axles threaded using a single template site: active metal template macrobicyclic [3]rotaxanes.
Journal of the American Chemical Society, 132 (1), .
(doi:10.1021/ja9080716).
(PMID:19968281)
Abstract
Template approaches to rotaxanes normally require at least n - 1 template sites to interlock n components. Here we describe the one-pot synthesis of [3]rotaxanes in which a single metal template site induces formation of axles through each cavity of a bicyclic macrocycle. Central to the approach is that a portion of the bicyclic molecule acts as a ligand for a transition metal ion that mediates covalent bond formation through one or other macrocyclic cavity, depending on the ligand's orientation, making a mechanical bond. The ligand can then rotate so that the transition metal can catalyze the formation of a second axle through the other macrocycle. Using this strategy with the Cu(I)-catalyzed azide-alkyne cycloaddition (the CuAAC reaction) generates a [3]rotaxane with two identical axles in up to 86% yield. [3]Rotaxanes with two different axles threaded through the macrobicyclic rings can also be created using a single template site, either by having copper(I) sequentially form both mechanical bonds (via the CuAAC reaction) using different sets of building blocks for each axle or by using two different reactions catalyzed by two different metal ions: a palladium(II)-mediated alkyne homocoupling to assemble the first thread through one cavity, followed by a copper(I)-mediated CuAAC reaction to form the second axle through the other ring.
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Published date: 13 January 2010
Organisations:
Organic Chemistry: Synthesis, Catalysis and Flow
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Local EPrints ID: 370658
URI: http://eprints.soton.ac.uk/id/eprint/370658
ISSN: 0002-7863
PURE UUID: 5cbba096-31e2-47c0-8ade-5b521a2b34dd
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Date deposited: 03 Nov 2014 13:32
Last modified: 14 Mar 2024 18:20
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Contributors
Author:
David A. Leigh
Author:
Paul R. McGonigal
Author:
Vicki E. Ronaldson
Author:
Alexandra M.Z. Slawin
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