Living supramolecular polymerization

Greater control is achieved over the chain growth and properties of dynamic materials Most polymers that we encounter, like those used in grocery bags and soda bottles, are formed from small molecules (monomers) held together by strong covalent bonds. In supramolecular polymerization, monomers bond...

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Published in	Science (American Association for the Advancement of Science) Vol. 349; no. 6245; pp. 241 - 242
Main Authors	Mukhopadhyay, Rahul Dev, Ajayaghosh, Ayyappanpillai
Format	Journal Article
Language	English
Published	Washington The American Association for the Advancement of Science 17.07.2015
Subjects	Bags bottles Covalence Covalent bonds hydrogen bonding Hydrogen bonds Molecular chemistry Monomers Polymerization Polymers Variability
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Abstract	Greater control is achieved over the chain growth and properties of dynamic materials Most polymers that we encounter, like those used in grocery bags and soda bottles, are formed from small molecules (monomers) held together by strong covalent bonds. In supramolecular polymerization, monomers bond through weaker reversible interactions, such as hydrogen bonds (H-bonds). Supramolecular polymerization usually proceeds through step-growth mechanisms ( 1 ), where both ends of each monomer are reactive and many smaller oligomers form before long polymers appear. To overcome this problem, a method developed for covalent polymers known as living polymerization has been adopted for supramolecular polymers to achieve better control and uniformity of chain growth and dispersity.
AbstractList	Most polymers that we encounter, like those used in grocery bags and soda bottles, are formed from small molecules (monomers) held together by strong covalent bonds. In supramolecular polymerization, monomers bond through weaker reversible interactions, such as hydrogen bonds (H-bonds). Supramolecular polymerization usually proceeds through step-growth mechanisms (1), where both ends of each monomer are reactive and many smaller oligomers form before long polymers appear. To overcome this problem, a method developed for covalent polymers known as living polymerization has been adopted for supramolecular polymers to achieve better control and uniformity of chain growth and dispersity. Greater control is achieved over the chain growth and properties of dynamic materials Most polymers that we encounter, like those used in grocery bags and soda bottles, are formed from small molecules (monomers) held together by strong covalent bonds. In supramolecular polymerization, monomers bond through weaker reversible interactions, such as hydrogen bonds (H-bonds). Supramolecular polymerization usually proceeds through step-growth mechanisms ( 1 ), where both ends of each monomer are reactive and many smaller oligomers form before long polymers appear. To overcome this problem, a method developed for covalent polymers known as living polymerization has been adopted for supramolecular polymers to achieve better control and uniformity of chain growth and dispersity. Most polymers that we encounter, like those used in grocery bags and soda bottles, are formed from small molecules (monomers) held together by strong covalent bonds. In supramolecular polymerization, monomers bond through weaker reversible interactions, such as hydrogen bonds (H-bonds). Supramolecular polymerization usually proceeds through step-growth mechanisms , where both ends of each monomer are reactive and many smaller oligomers form before long polymers appear. To overcome this problem, a method developed for covalent polymers known as living polymerization has been adopted for supramolecular polymers to achieve better control and uniformity of chain growth and dispersity.
Author	Mukhopadhyay, Rahul Dev Ajayaghosh, Ayyappanpillai
Author_xml	– sequence: 1 givenname: Rahul Dev surname: Mukhopadhyay fullname: Mukhopadhyay, Rahul Dev organization: Chemical Sciences and Technology Division, CSIR–National Institute for Interdisciplinary Science and Technology (CSIRNIIST), Trivandrum 695019, India., Academy of Scientific and Innovative Research (AcSIR), CSIR-NIIST, Trivandrum 695019, India – sequence: 2 givenname: Ayyappanpillai surname: Ajayaghosh fullname: Ajayaghosh, Ayyappanpillai organization: Chemical Sciences and Technology Division, CSIR–National Institute for Interdisciplinary Science and Technology (CSIRNIIST), Trivandrum 695019, India., Academy of Scientific and Innovative Research (AcSIR), CSIR-NIIST, Trivandrum 695019, India
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Snippet	Greater control is achieved over the chain growth and properties of dynamic materials Most polymers that we encounter, like those used in grocery bags and soda... Most polymers that we encounter, like those used in grocery bags and soda bottles, are formed from small molecules (monomers) held together by strong covalent...
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SubjectTerms	Bags bottles Covalence Covalent bonds hydrogen bonding Hydrogen bonds Molecular chemistry Monomers Polymerization Polymers Variability
Title	Living supramolecular polymerization
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