Supramolecular Block Copolymers by Seeded Living Polymerization of Perylene Bisimides

Living covalent polymerization has been a subject of intense research for many decades and has culminated in the synthesis of a large variety of block copolymers (BCPs) with structural and functional diversity. In contrast, the research on supramolecular BCPs is still in its infancy and their genera...

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Published in	Journal of the American Chemical Society Vol. 141; no. 30; pp. 12044 - 12054
Main Authors	Wagner, Wolfgang, Wehner, Marius, Stepanenko, Vladimir, Würthner, Frank
Format	Journal Article
Language	English
Published	WASHINGTON American Chemical Society 31.07.2019 Amer Chemical Soc
Subjects	atomic force microscopy Chemistry Chemistry, Multidisciplinary chlorine composite polymers copolymerization functional diversity hydrogen bonding Physical Sciences Science & Technology thermodynamics ultraviolet-visible spectroscopy POLYMERS DYE NUCLEATION-ELONGATION PLATINUM(II) COMPLEXES MECHANISM PATHWAY COMPLEXITY CYLINDRICAL MICELLES GROWTH ENERGY LANDSCAPE ARCHITECTURES
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Abstract	Living covalent polymerization has been a subject of intense research for many decades and has culminated in the synthesis of a large variety of block copolymers (BCPs) with structural and functional diversity. In contrast, the research on supramolecular BCPs is still in its infancy and their generation by living processes remains a challenge. Here we report the formation of supramolecular block copolymers by two-component seeded living polymerization of properly designed perylene bisimides (PBIs) under precise kinetic control. Our detailed studies on thermodynamically and kinetically controlled supramolecular polymerization of three investigated PBIs, which contain hydrogen-bonding amide side groups in imide position and chlorine, methoxy, or methylthio substituents in 1,7 bay-positions, revealed that these PBIs form kinetically metastable H-aggregates, which can be transformed into the thermodynamically favored J-aggregates by seed-induced living polymerization. We show here that copolymerization of kinetically trapped states of one PBI with seeds of another PBI leads to the formation of supramolecular block copolymers by chain-growth process from the seed termini as confirmed by UV/vis spectroscopy and atomic force microscopy (AFM). This work demonstrates for the first time the formation of triblock supramolecular polymer architectures with A-B-A and B-A-B block pattern by alternate two-component seeded polymerization in a living manner.
AbstractList	Living covalent polymerization has been a subject of intense research for many decades and has culminated in the synthesis of a large variety of block copolymers (BCPs) with structural and functional diversity. In contrast, the research on supramolecular BCPs is still in its infancy and their generation by living processes remains a challenge. Here we report the formation of supramolecular block copolymers by two-component seeded living polymerization of properly designed perylene bisimides (PBIs) under precise kinetic control. Our detailed studies on thermodynamically and kinetically controlled supramolecular polymerization of three investigated PBIs, which contain hydrogen-bonding amide side groups in imide position and chlorine, methoxy, or methylthio substituents in 1,7 bay-positions, revealed that these PBIs form kinetically metastable H-aggregates, which can be transformed into the thermodynamically favored J-aggregates by seed-induced living polymerization. We show here that copolymerization of kinetically trapped states of one PBI with seeds of another PBI leads to the formation of supramolecular block copolymers by chain-growth process from the seed termini as confirmed by UV/vis spectroscopy and atomic force microscopy (AFM). This work demonstrates for the first time the formation of triblock supramolecular polymer architectures with A-B-A and B-A-B block pattern by alternate two-component seeded polymerization in a living manner. Living covalent polymerization has been a subject of intense research for many decades and has culminated in the synthesis of a large variety of block copolymers (BCPs) with structural and functional diversity. In contrast, the research on supramolecular BCPs is still in its infancy and their generation by living processes remains a challenge. Here we report the formation of supramolecular block copolymers by two-component seeded living polymerization of properly designed perylene bisimides (PBIs) under precise kinetic control. Our detailed studies on thermodynamically and kinetically controlled supramolecular polymerization of three investigated PBIs, which contain hydrogen-bonding amide side groups in imide position and chlorine, methoxy, or methylthio substituents in 1,7 bay-positions, revealed that these PBIs form kinetically metastable H-aggregates, which can be transformed into the thermodynamically favored J-aggregates by seed-induced living polymerization. We show here that copolymerization of kinetically trapped states of one PBI with seeds of another PBI leads to the formation of supramolecular block copolymers by chain-growth process from the seed termini as confirmed by UV/vis spectroscopy and atomic force microscopy (AFM). This work demonstrates for the first time the formation of triblock supramolecular polymer architectures with A-B-A and B-A-B block pattern by alternate two-component seeded polymerization in a living manner.Living covalent polymerization has been a subject of intense research for many decades and has culminated in the synthesis of a large variety of block copolymers (BCPs) with structural and functional diversity. In contrast, the research on supramolecular BCPs is still in its infancy and their generation by living processes remains a challenge. Here we report the formation of supramolecular block copolymers by two-component seeded living polymerization of properly designed perylene bisimides (PBIs) under precise kinetic control. Our detailed studies on thermodynamically and kinetically controlled supramolecular polymerization of three investigated PBIs, which contain hydrogen-bonding amide side groups in imide position and chlorine, methoxy, or methylthio substituents in 1,7 bay-positions, revealed that these PBIs form kinetically metastable H-aggregates, which can be transformed into the thermodynamically favored J-aggregates by seed-induced living polymerization. We show here that copolymerization of kinetically trapped states of one PBI with seeds of another PBI leads to the formation of supramolecular block copolymers by chain-growth process from the seed termini as confirmed by UV/vis spectroscopy and atomic force microscopy (AFM). This work demonstrates for the first time the formation of triblock supramolecular polymer architectures with A-B-A and B-A-B block pattern by alternate two-component seeded polymerization in a living manner.
Author	Würthner, Frank Wagner, Wolfgang Stepanenko, Vladimir Wehner, Marius
AuthorAffiliation	Universität Würzburg Institut für Organische Chemie Center for Nanosystems Chemistry (CNC) and Bavarian Polymer Institute (BPI)
AuthorAffiliation_xml	– name: Institut für Organische Chemie – name: Universität Würzburg – name: Center for Nanosystems Chemistry (CNC) and Bavarian Polymer Institute (BPI)
Author_xml	– sequence: 1 givenname: Wolfgang surname: Wagner fullname: Wagner, Wolfgang organization: Universität Würzburg – sequence: 2 givenname: Marius surname: Wehner fullname: Wehner, Marius organization: Universität Würzburg – sequence: 3 givenname: Vladimir surname: Stepanenko fullname: Stepanenko, Vladimir organization: Universität Würzburg – sequence: 4 givenname: Frank orcidid: 0000-0001-7245-0471 surname: Würthner fullname: Würthner, Frank email: wuerthner@uni-wuerzburg.de organization: Universität Würzburg
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/31304748$$D View this record in MEDLINE/PubMed
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Snippet	Living covalent polymerization has been a subject of intense research for many decades and has culminated in the synthesis of a large variety of block...
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SubjectTerms	atomic force microscopy Chemistry Chemistry, Multidisciplinary chlorine composite polymers copolymerization functional diversity hydrogen bonding Physical Sciences Science & Technology thermodynamics ultraviolet-visible spectroscopy
Title	Supramolecular Block Copolymers by Seeded Living Polymerization of Perylene Bisimides
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