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Self-assembled links: catenanes

Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSNChapter (peer-reviewed)

Published

Standard

Self-assembled links: catenanes. / Evans, Nicholas H.; Beer, Paul D.
Supramolecular chemistry: from molecules to nanomaterials. ed. / Jonathan W. Steed; Philip A. Gale. Chichester: John Wiley & Sons, 2012.

Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSNChapter (peer-reviewed)

Harvard

Evans, NH & Beer, PD 2012, Self-assembled links: catenanes. in JW Steed & PA Gale (eds), Supramolecular chemistry: from molecules to nanomaterials. John Wiley & Sons, Chichester.

APA

Evans, N. H., & Beer, P. D. (2012). Self-assembled links: catenanes. In J. W. Steed, & P. A. Gale (Eds.), Supramolecular chemistry: from molecules to nanomaterials John Wiley & Sons.

Vancouver

Evans NH, Beer PD. Self-assembled links: catenanes. In Steed JW, Gale PA, editors, Supramolecular chemistry: from molecules to nanomaterials. Chichester: John Wiley & Sons. 2012

Author

Evans, Nicholas H. ; Beer, Paul D. / Self-assembled links : catenanes. Supramolecular chemistry: from molecules to nanomaterials. editor / Jonathan W. Steed ; Philip A. Gale. Chichester : John Wiley & Sons, 2012.

Bibtex

@inbook{a6f3a2dd90314e21bd6f8ccbf10c0f4d,
title = "Self-assembled links: catenanes",
abstract = "Catenanes are molecules consisting of two or more rings that are mechanically interlocked requiring the cleavage of a chemical bond to separate the macrocyclic components. Initial attempts to synthesize these aesthetically pleasing molecules via nontemplated methods were blighted by low yields and lengthy syntheses, and it took Sauvage's use of the copper(I) cation as a template for the synthesis of a [2]catenane to ignite intense research activity in this field. This chapter summarizes this groundbreaking work and the array of template interactions such as metal cation, charge transfer π-π stacking, hydrogen bonding, and anion coordination that have since been utilized to produce catenanes. Attention is then turned toward the progress that has been made in the practical applications of these mechanically chain linked structures, such as the control of their molecular motion, immobilization onto surfaces, and efforts to incorporate them into extended structures such as polymers and metal organic frameworks. ",
keywords = "catenanes, self-assembly, template synthesis, molecular motion",
author = "Evans, {Nicholas H.} and Beer, {Paul D.}",
year = "2012",
month = feb,
language = "English",
isbn = "978-0-470-74640-0",
editor = "Steed, {Jonathan W.} and Gale, {Philip A.}",
booktitle = "Supramolecular chemistry",
publisher = "John Wiley & Sons",

}

RIS

TY - CHAP

T1 - Self-assembled links

T2 - catenanes

AU - Evans, Nicholas H.

AU - Beer, Paul D.

PY - 2012/2

Y1 - 2012/2

N2 - Catenanes are molecules consisting of two or more rings that are mechanically interlocked requiring the cleavage of a chemical bond to separate the macrocyclic components. Initial attempts to synthesize these aesthetically pleasing molecules via nontemplated methods were blighted by low yields and lengthy syntheses, and it took Sauvage's use of the copper(I) cation as a template for the synthesis of a [2]catenane to ignite intense research activity in this field. This chapter summarizes this groundbreaking work and the array of template interactions such as metal cation, charge transfer π-π stacking, hydrogen bonding, and anion coordination that have since been utilized to produce catenanes. Attention is then turned toward the progress that has been made in the practical applications of these mechanically chain linked structures, such as the control of their molecular motion, immobilization onto surfaces, and efforts to incorporate them into extended structures such as polymers and metal organic frameworks.

AB - Catenanes are molecules consisting of two or more rings that are mechanically interlocked requiring the cleavage of a chemical bond to separate the macrocyclic components. Initial attempts to synthesize these aesthetically pleasing molecules via nontemplated methods were blighted by low yields and lengthy syntheses, and it took Sauvage's use of the copper(I) cation as a template for the synthesis of a [2]catenane to ignite intense research activity in this field. This chapter summarizes this groundbreaking work and the array of template interactions such as metal cation, charge transfer π-π stacking, hydrogen bonding, and anion coordination that have since been utilized to produce catenanes. Attention is then turned toward the progress that has been made in the practical applications of these mechanically chain linked structures, such as the control of their molecular motion, immobilization onto surfaces, and efforts to incorporate them into extended structures such as polymers and metal organic frameworks.

KW - catenanes

KW - self-assembly

KW - template synthesis

KW - molecular motion

M3 - Chapter (peer-reviewed)

SN - 978-0-470-74640-0

BT - Supramolecular chemistry

A2 - Steed, Jonathan W.

A2 - Gale, Philip A.

PB - John Wiley & Sons

CY - Chichester

ER -