Fuel-Controlled Reassembly of Metal–Organic Architectures

[Image: see text] Many examples exist of biological self-assembled structures that restructure in response to external stimuli, then return to their previous state over a defined time scale, but most synthetic investigations so far have focused on systems that switch between states representing ener...

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Autores principales: Wood, Christopher S., Browne, Colm, Wood, Daniel M., Nitschke, Jonathan R.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Chemical Society 2015
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4694623/
https://www.ncbi.nlm.nih.gov/pubmed/26779566
http://dx.doi.org/10.1021/acscentsci.5b00279
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author Wood, Christopher S.
Browne, Colm
Wood, Daniel M.
Nitschke, Jonathan R.
author_facet Wood, Christopher S.
Browne, Colm
Wood, Daniel M.
Nitschke, Jonathan R.
author_sort Wood, Christopher S.
collection PubMed
description [Image: see text] Many examples exist of biological self-assembled structures that restructure in response to external stimuli, then return to their previous state over a defined time scale, but most synthetic investigations so far have focused on systems that switch between states representing energetic minima upon stimulus application. Here we report an approach in which triphenylphosphine is used as a chemical fuel to maintain Cu(I)-based self-assembled metallosupramolecular architectures for defined periods of time. This method was used to exert control over the threading and dethreading of the ring of a pseudorotaxane’s axle, as well as to direct the uptake and release of a guest from a metal–organic host. Management of the amount of fuel and catalyst added allowed for time-dependent regulation of product concentration.
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spelling pubmed-46946232016-01-13 Fuel-Controlled Reassembly of Metal–Organic Architectures Wood, Christopher S. Browne, Colm Wood, Daniel M. Nitschke, Jonathan R. ACS Cent Sci [Image: see text] Many examples exist of biological self-assembled structures that restructure in response to external stimuli, then return to their previous state over a defined time scale, but most synthetic investigations so far have focused on systems that switch between states representing energetic minima upon stimulus application. Here we report an approach in which triphenylphosphine is used as a chemical fuel to maintain Cu(I)-based self-assembled metallosupramolecular architectures for defined periods of time. This method was used to exert control over the threading and dethreading of the ring of a pseudorotaxane’s axle, as well as to direct the uptake and release of a guest from a metal–organic host. Management of the amount of fuel and catalyst added allowed for time-dependent regulation of product concentration. American Chemical Society 2015-12-03 2015-12-23 /pmc/articles/PMC4694623/ /pubmed/26779566 http://dx.doi.org/10.1021/acscentsci.5b00279 Text en Copyright © 2015 American Chemical Society This is an open access article published under an ACS AuthorChoice License (http://pubs.acs.org/page/policy/authorchoice_termsofuse.html) , which permits copying and redistribution of the article or any adaptations for non-commercial purposes.
spellingShingle Wood, Christopher S.
Browne, Colm
Wood, Daniel M.
Nitschke, Jonathan R.
Fuel-Controlled Reassembly of Metal–Organic Architectures
title Fuel-Controlled Reassembly of Metal–Organic Architectures
title_full Fuel-Controlled Reassembly of Metal–Organic Architectures
title_fullStr Fuel-Controlled Reassembly of Metal–Organic Architectures
title_full_unstemmed Fuel-Controlled Reassembly of Metal–Organic Architectures
title_short Fuel-Controlled Reassembly of Metal–Organic Architectures
title_sort fuel-controlled reassembly of metal–organic architectures
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4694623/
https://www.ncbi.nlm.nih.gov/pubmed/26779566
http://dx.doi.org/10.1021/acscentsci.5b00279
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