Supramolecular scaffolds enabling the controlled assembly of functional molecular units

Supramolecular scaffolds enabling the controlled assembly of functional molecular units

To assemble functional molecular units into a desired structure while controlling positional and orientational order is a key technology for the development of high-performance organic materials that exhibit electronic, optoelectronic, biological and even dynamic functions. For this purpose, we cann...

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Published in:Chemical science (Cambridge) Vol. 9; no. 8; pp. 228 - 241
Main Authors: Ishiwari, Fumitaka, Shoji, Yoshiaki, Fukushima, Takanori
Format: Journal Article
Language:English
Published: England Royal Society of Chemistry 2018
Subjects:
Chemistry
Coordination compounds
Molecular structure
Optoelectronics
Organic materials
Scaffolds
Self-assembly
Substrates
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Abstract To assemble functional molecular units into a desired structure while controlling positional and orientational order is a key technology for the development of high-performance organic materials that exhibit electronic, optoelectronic, biological and even dynamic functions. For this purpose, we cannot rely simply on the inherent self-assembly properties of the target functional molecular units, since it is difficult to predict, based solely on the molecular structure, what structure will be achieved upon assembly. To address this issue, it would be useful to employ molecular building blocks with self-assembly structures that can be clearly predicted and defined, to make target molecular units assemble into a desired structure. To date, various motifs of molecular assemblies, polymers, discrete and/or three-dimensional metal-organic complexes, nanoparticles and metal/metal oxide substrates have been developed to create materials with particular structures and dimensionalities. In this perspective, we define such assembly motifs as "supramolecular scaffolds". The structure of supramolecular scaffolds can be classified in terms of dimensionality, and they range in size from nano- to macroscopic scales. Functional molecular units, when attached to supramolecular scaffolds either covalently or non-covalently, can be assembled into specific structures, thus enabling the exploration of new properties, which cannot be achieved with the target molecular units alone. Through the classification and overview of reported examples, we shed new light on supramolecular scaffolds for the rational design of organic and polymeric materials. This perspective describes the construction of 0D-3D organic and polymeric architectures using "robust" supramolecular scaffolds.
AbstractList To assemble functional molecular units into a desired structure while controlling positional and orientational order is a key technology for the development of high-performance organic materials that exhibit electronic, optoelectronic, biological and even dynamic functions. For this purpose, we cannot rely simply on the inherent self-assembly properties of the target functional molecular units, since it is difficult to predict, based solely on the molecular structure, what structure will be achieved upon assembly. To address this issue, it would be useful to employ molecular building blocks with self-assembly structures that can be clearly predicted and defined, to make target molecular units assemble into a desired structure. To date, various motifs of molecular assemblies, polymers, discrete and/or three-dimensional metal–organic complexes, nanoparticles and metal/metal oxide substrates have been developed to create materials with particular structures and dimensionalities. In this perspective, we define such assembly motifs as “supramolecular scaffolds”. The structure of supramolecular scaffolds can be classified in terms of dimensionality, and they range in size from nano- to macroscopic scales. Functional molecular units, when attached to supramolecular scaffolds either covalently or non-covalently, can be assembled into specific structures, thus enabling the exploration of new properties, which cannot be achieved with the target molecular units alone. Through the classification and overview of reported examples, we shed new light on supramolecular scaffolds for the rational design of organic and polymeric materials.
This perspective describes the construction of 0D–3D organic and polymeric architectures using “robust” supramolecular scaffolds. To assemble functional molecular units into a desired structure while controlling positional and orientational order is a key technology for the development of high-performance organic materials that exhibit electronic, optoelectronic, biological and even dynamic functions. For this purpose, we cannot rely simply on the inherent self-assembly properties of the target functional molecular units, since it is difficult to predict, based solely on the molecular structure, what structure will be achieved upon assembly. To address this issue, it would be useful to employ molecular building blocks with self-assembly structures that can be clearly predicted and defined, to make target molecular units assemble into a desired structure. To date, various motifs of molecular assemblies, polymers, discrete and/or three-dimensional metal–organic complexes, nanoparticles and metal/metal oxide substrates have been developed to create materials with particular structures and dimensionalities. In this perspective, we define such assembly motifs as “supramolecular scaffolds”. The structure of supramolecular scaffolds can be classified in terms of dimensionality, and they range in size from nano- to macroscopic scales. Functional molecular units, when attached to supramolecular scaffolds either covalently or non-covalently, can be assembled into specific structures, thus enabling the exploration of new properties, which cannot be achieved with the target molecular units alone. Through the classification and overview of reported examples, we shed new light on supramolecular scaffolds for the rational design of organic and polymeric materials.
To assemble functional molecular units into a desired structure while controlling positional and orientational order is a key technology for the development of high-performance organic materials that exhibit electronic, optoelectronic, biological and even dynamic functions. For this purpose, we cannot rely simply on the inherent self-assembly properties of the target functional molecular units, since it is difficult to predict, based solely on the molecular structure, what structure will be achieved upon assembly. To address this issue, it would be useful to employ molecular building blocks with self-assembly structures that can be clearly predicted and defined, to make target molecular units assemble into a desired structure. To date, various motifs of molecular assemblies, polymers, discrete and/or three-dimensional metal-organic complexes, nanoparticles and metal/metal oxide substrates have been developed to create materials with particular structures and dimensionalities. In this perspective, we define such assembly motifs as "supramolecular scaffolds". The structure of supramolecular scaffolds can be classified in terms of dimensionality, and they range in size from nano- to macroscopic scales. Functional molecular units, when attached to supramolecular scaffolds either covalently or non-covalently, can be assembled into specific structures, thus enabling the exploration of new properties, which cannot be achieved with the target molecular units alone. Through the classification and overview of reported examples, we shed new light on supramolecular scaffolds for the rational design of organic and polymeric materials. This perspective describes the construction of 0D-3D organic and polymeric architectures using "robust" supramolecular scaffolds.
Author Fukushima, Takanori
Shoji, Yoshiaki
Ishiwari, Fumitaka
AuthorAffiliation Tokyo Institute of Technology
Laboratory for Chemistry and Life Science
Institute of Innovative Research
AuthorAffiliation_xml – name: Laboratory for Chemistry and Life Science
– name: Tokyo Institute of Technology
– name: Institute of Innovative Research
– name: a Laboratory for Chemistry and Life Science , Institute of Innovative Research , Tokyo Institute of Technology , 4259 Nagatsuta, Midori-ku , Yokohama 226-8503 , Japan . Email: fukushima@res.titech.ac.jp
Author_xml – sequence: 1
  givenname: Fumitaka
  surname: Ishiwari
  fullname: Ishiwari, Fumitaka
– sequence: 2
  givenname: Yoshiaki
  surname: Shoji
  fullname: Shoji, Yoshiaki
– sequence: 3
  givenname: Takanori
  surname: Fukushima
  fullname: Fukushima, Takanori
BackLink https://www.ncbi.nlm.nih.gov/pubmed/29719683$$D View this record in MEDLINE/PubMed
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Snippet To assemble functional molecular units into a desired structure while controlling positional and orientational order is a key technology for the development of...
This perspective describes the construction of 0D–3D organic and polymeric architectures using “robust” supramolecular scaffolds. To assemble functional...
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SubjectTerms Chemistry
Coordination compounds
Molecular structure
Optoelectronics
Organic materials
Scaffolds
Self-assembly
Substrates
Title Supramolecular scaffolds enabling the controlled assembly of functional molecular units
URI https://www.ncbi.nlm.nih.gov/pubmed/29719683
https://www.proquest.com/docview/2010894276
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https://pubmed.ncbi.nlm.nih.gov/PMC5896469
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