Mechanically interlocked daisy-chain-like structures as multidimensional molecular muscles

Daisy chains (DCs) are garlands of flowers that can be worn as bracelets and necklaces. As a result of their beautiful interlocked structures and possible muscle-like motions, cyclic molecular DCs ([ cn ]DCs, where n is the number of repeating units) have long been attractive synthetic targets for s...

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Published inNature chemistry Vol. 9; no. 2; pp. 128 - 134
Main Authors Chang, Jia-Cheng, Tseng, Shin-Han, Lai, Chien-Chen, Liu, Yi-Hung, Peng, Shie-Ming, Chiu, Sheng-Hsien
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 01.02.2017
Springer Nature
Nature Publishing Group
Subjects
140/131
140/58
639/638/541/964
639/638/541/966
Analytical Chemistry
Biochemistry
Chemistry
Chemistry, Multidisciplinary
Chemistry/Food Science
Inorganic Chemistry
Muscles
Organic Chemistry
Physical Chemistry
Physical Sciences
Rigidity
Science & Technology
Taiwan
POLYMERS
CONTRACTION
JANUS
DIMER
PH
ROTAXANE
DRIVEN
MACHINE
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Abstract Daisy chains (DCs) are garlands of flowers that can be worn as bracelets and necklaces. As a result of their beautiful interlocked structures and possible muscle-like motions, cyclic molecular DCs ([ cn ]DCs, where n is the number of repeating units) have long been attractive synthetic targets for supramolecular chemists. Herein we report artificial molecular muscles that—unlike one-dimensional (1D) biological muscles—contract and stretch in 2D or 3D. These systems have the structures of [ c3 ]- and [ c4 ]DCs with subcomponents that operate as molecular switches, powered through the addition or removal of Zn 2+ ions to impart muscle-like behaviour. We assembled these [ c3 ]- and [ c4 ]DCs selectively by exploiting structural rigidity, coordination geometries and bond rotational barriers that disfavoured the formation of smaller homologues. The switching phenomena of our [ c3 ]- and [ c4 ]DCs resulted in the contracted molecular muscles stretching by approximately 23 and 36%, respectively, comparable to the value (27%) for linear biological muscles. By exploiting structural rigidity, coordination geometries and bond rotational barriers that disfavour the formation of smaller homologues, molecular switches based on [ c3 ] and [ c4 ]daisy chains have been assembled selectively; they display muscle-like motion in multiple dimensions with changes in length of approximately 23% and 36%, respectively.
AbstractList Daisy chains (DCs) are garlands of flowers that can be worn as bracelets and necklaces. As a result of their beautiful interlocked structures and possible muscle-like motions, cyclic molecular DCs ([cn]DCs, where n is the number of repeating units) have long been attractive synthetic targets for supramolecular chemists. Herein we report artificial molecular muscles that-unlike one-dimensional (1D) biological muscles-contract and stretch in 2D or 3D. These systems have the structures of [c3]- and [c4]DCs with subcomponents that operate as molecular switches, powered through the addition or removal of Zn super(2+) ions to impart muscle-like behaviour. We assembled these [c3]- and [c4]DCs selectively by exploiting structural rigidity, coordination geometries and bond rotational barriers that disfavoured the formation of smaller homologues. The switching phenomena of our [c3]- and [c4]DCs resulted in the contracted molecular muscles stretching by approximately 23 and 36%, respectively, comparable to the value (27%) for linear biological muscles.
Daisy chains (DCs) are garlands of flowers that can be worn as bracelets and necklaces. As a result of their beautiful interlocked structures and possible muscle-like motions, cyclic molecular DCs ([cn]DCs, where n is the number of repeating units) have long been attractive synthetic targets for supramolecular chemists. Herein we report artificial molecular muscles that-unlike one-dimensional (1D) biological muscles-contract and stretch in 2D or 3D. These systems have the structures of [c3]- and [c4]DCs with subcomponents that operate as molecular switches, powered through the addition or removal of Zn2+ ions to impart muscle-like behaviour. We assembled these [c3]- and [c4] DCs selectively by exploiting structural rigidity, coordination geometries and bond rotational barriers that disfavoured the formation of smaller homologues. The switching phenomena of our [c3]- and [c4] DCs resulted in the contracted molecular muscles stretching by approximately 23 and 36%, respectively, comparable to the value (27%) for linear biological muscles.
Daisy chains (DCs) are garlands of flowers that can be worn as bracelets and necklaces. As a result of their beautiful interlocked structures and possible muscle-like motions, cyclic molecular DCs ([ cn ]DCs, where n is the number of repeating units) have long been attractive synthetic targets for supramolecular chemists. Herein we report artificial molecular muscles that—unlike one-dimensional (1D) biological muscles—contract and stretch in 2D or 3D. These systems have the structures of [ c3 ]- and [ c4 ]DCs with subcomponents that operate as molecular switches, powered through the addition or removal of Zn 2+ ions to impart muscle-like behaviour. We assembled these [ c3 ]- and [ c4 ]DCs selectively by exploiting structural rigidity, coordination geometries and bond rotational barriers that disfavoured the formation of smaller homologues. The switching phenomena of our [ c3 ]- and [ c4 ]DCs resulted in the contracted molecular muscles stretching by approximately 23 and 36%, respectively, comparable to the value (27%) for linear biological muscles. By exploiting structural rigidity, coordination geometries and bond rotational barriers that disfavour the formation of smaller homologues, molecular switches based on [ c3 ] and [ c4 ]daisy chains have been assembled selectively; they display muscle-like motion in multiple dimensions with changes in length of approximately 23% and 36%, respectively.
Author Liu, Yi-Hung
Lai, Chien-Chen
Chang, Jia-Cheng
Peng, Shie-Ming
Chiu, Sheng-Hsien
Tseng, Shin-Han
Author_xml – sequence: 1
  givenname: Jia-Cheng
  surname: Chang
  fullname: Chang, Jia-Cheng
  organization: Department of Chemistry, National Taiwan University
– sequence: 2
  givenname: Shin-Han
  surname: Tseng
  fullname: Tseng, Shin-Han
  organization: Department of Chemistry, National Taiwan University
– sequence: 3
  givenname: Chien-Chen
  surname: Lai
  fullname: Lai, Chien-Chen
  organization: Institute of Molecular Biology, National Chung Hsing University, Department of Medical Genetics, China Medical University Hospital
– sequence: 4
  givenname: Yi-Hung
  surname: Liu
  fullname: Liu, Yi-Hung
  organization: Department of Chemistry, National Taiwan University
– sequence: 5
  givenname: Shie-Ming
  surname: Peng
  fullname: Peng, Shie-Ming
  organization: Department of Chemistry, National Taiwan University
– sequence: 6
  givenname: Sheng-Hsien
  orcidid: 0000-0002-0040-1555
  surname: Chiu
  fullname: Chiu, Sheng-Hsien
  email: shchiu@ntu.edu.tw
  organization: Department of Chemistry, National Taiwan University
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Keywords POLYMERS
CONTRACTION
JANUS
DIMER
PH
ROTAXANE
DRIVEN
MACHINE
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I Rayment (BFnchem2608_CR15) 1993; 261
C Romuald (BFnchem2608_CR32) 2012; 3
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Snippet Daisy chains (DCs) are garlands of flowers that can be worn as bracelets and necklaces. As a result of their beautiful interlocked structures and possible...
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StartPage 128
SubjectTerms 140/131
140/58
639/638/541/964
639/638/541/966
Analytical Chemistry
Biochemistry
Chemistry
Chemistry, Multidisciplinary
Chemistry/Food Science
Inorganic Chemistry
Muscles
Organic Chemistry
Physical Chemistry
Physical Sciences
Rigidity
Science & Technology
Title Mechanically interlocked daisy-chain-like structures as multidimensional molecular muscles
URI https://link.springer.com/article/10.1038/nchem.2608
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