Formation of non-spherical polymersomes driven by hydrophobic directional aromatic perylene interactions
Polymersomes, made up of amphiphilic block copolymers, are emerging as a powerful tool in drug delivery and synthetic biology due to their high stability, chemical versatility, and surface modifiability. The full potential of polymersomes, however, has been hindered by a lack of versatile methods fo...
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| Vydané v: | Nature communications Ročník 8; číslo 1; s. 1240 - 10 |
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| Hlavní autori: | , , , |
| Médium: | Journal Article |
| Jazyk: | English |
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London
Nature Publishing Group UK
01.11.2017
Nature Publishing Group Nature Portfolio |
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| ISSN: | 2041-1723, 2041-1723 |
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| Abstract | Polymersomes, made up of amphiphilic block copolymers, are emerging as a powerful tool in drug delivery and synthetic biology due to their high stability, chemical versatility, and surface modifiability. The full potential of polymersomes, however, has been hindered by a lack of versatile methods for shape control. Here we show that a range of non-spherical polymersome morphologies with anisotropic membranes can be obtained by exploiting hydrophobic directional aromatic interactions between perylene polymer units within the membrane structure. By controlling the extent of solvation/desolvation of the aromatic side chains through changes in solvent quality, we demonstrate facile access to polymersomes that are either ellipsoidal or tubular-shaped. Our results indicate that perylene aromatic interactions have a great potential in the design of non-spherical polymersomes and other structurally complex self-assembled polymer structures.
Polymersomes have become a powerful tool in drug delivery and synthetic biology, but their use can be restricted by a lack of versatile methods for shape control. Here the authors demonstrate access to a range of non-spherical polymersome morphologies by exploiting hydrophobic directional aromatic perylene interactions within the membrane structure. |
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| AbstractList | Polymersomes, made up of amphiphilic block copolymers, are emerging as a powerful tool in drug delivery and synthetic biology due to their high stability, chemical versatility, and surface modifiability. The full potential of polymersomes, however, has been hindered by a lack of versatile methods for shape control. Here we show that a range of non-spherical polymersome morphologies with anisotropic membranes can be obtained by exploiting hydrophobic directional aromatic interactions between perylene polymer units within the membrane structure. By controlling the extent of solvation/desolvation of the aromatic side chains through changes in solvent quality, we demonstrate facile access to polymersomes that are either ellipsoidal or tubular-shaped. Our results indicate that perylene aromatic interactions have a great potential in the design of non-spherical polymersomes and other structurally complex self-assembled polymer structures. Polymersomes, made up of amphiphilic block copolymers, are emerging as a powerful tool in drug delivery and synthetic biology due to their high stability, chemical versatility, and surface modifiability. The full potential of polymersomes, however, has been hindered by a lack of versatile methods for shape control. Here we show that a range of non-spherical polymersome morphologies with anisotropic membranes can be obtained by exploiting hydrophobic directional aromatic interactions between perylene polymer units within the membrane structure. By controlling the extent of solvation/desolvation of the aromatic side chains through changes in solvent quality, we demonstrate facile access to polymersomes that are either ellipsoidal or tubular-shaped. Our results indicate that perylene aromatic interactions have a great potential in the design of non-spherical polymersomes and other structurally complex self-assembled polymer structures. Polymersomes have become a powerful tool in drug delivery and synthetic biology, but their use can be restricted by a lack of versatile methods for shape control. Here the authors demonstrate access to a range of non-spherical polymersome morphologies by exploiting hydrophobic directional aromatic perylene interactions within the membrane structure. Polymersomes, made up of amphiphilic block copolymers, are emerging as a powerful tool in drug delivery and synthetic biology due to their high stability, chemical versatility, and surface modifiability. The full potential of polymersomes, however, has been hindered by a lack of versatile methods for shape control. Here we show that a range of non-spherical polymersome morphologies with anisotropic membranes can be obtained by exploiting hydrophobic directional aromatic interactions between perylene polymer units within the membrane structure. By controlling the extent of solvation/desolvation of the aromatic side chains through changes in solvent quality, we demonstrate facile access to polymersomes that are either ellipsoidal or tubular-shaped. Our results indicate that perylene aromatic interactions have a great potential in the design of non-spherical polymersomes and other structurally complex self-assembled polymer structures. Polymersomes have become a powerful tool in drug delivery and synthetic biology, but their use can be restricted by a lack of versatile methods for shape control. Here the authors demonstrate access to a range of non-spherical polymersome morphologies by exploiting hydrophobic directional aromatic perylene interactions within the membrane structure. Polymersomes have become a powerful tool in drug delivery and synthetic biology, but their use can be restricted by a lack of versatile methods for shape control. Here the authors demonstrate access to a range of non-spherical polymersome morphologies by exploiting hydrophobic directional aromatic perylene interactions within the membrane structure. Polymersomes, made up of amphiphilic block copolymers, are emerging as a powerful tool in drug delivery and synthetic biology due to their high stability, chemical versatility, and surface modifiability. The full potential of polymersomes, however, has been hindered by a lack of versatile methods for shape control. Here we show that a range of non-spherical polymersome morphologies with anisotropic membranes can be obtained by exploiting hydrophobic directional aromatic interactions between perylene polymer units within the membrane structure. By controlling the extent of solvation/desolvation of the aromatic side chains through changes in solvent quality, we demonstrate facile access to polymersomes that are either ellipsoidal or tubular-shaped. Our results indicate that perylene aromatic interactions have a great potential in the design of non-spherical polymersomes and other structurally complex self-assembled polymer structures.Polymersomes, made up of amphiphilic block copolymers, are emerging as a powerful tool in drug delivery and synthetic biology due to their high stability, chemical versatility, and surface modifiability. The full potential of polymersomes, however, has been hindered by a lack of versatile methods for shape control. Here we show that a range of non-spherical polymersome morphologies with anisotropic membranes can be obtained by exploiting hydrophobic directional aromatic interactions between perylene polymer units within the membrane structure. By controlling the extent of solvation/desolvation of the aromatic side chains through changes in solvent quality, we demonstrate facile access to polymersomes that are either ellipsoidal or tubular-shaped. Our results indicate that perylene aromatic interactions have a great potential in the design of non-spherical polymersomes and other structurally complex self-assembled polymer structures. |
| ArticleNumber | 1240 |
| Author | Mason, Alexander F. Wong, Chin Ken Stenzel, Martina H. Thordarson, Pall |
| Author_xml | – sequence: 1 givenname: Chin Ken orcidid: 0000-0003-3040-4412 surname: Wong fullname: Wong, Chin Ken organization: School of Chemistry, University of New South Wales, The Australian Centre for Nanomedicine and the ARC Centre of Excellence in Convergent Bio-Nano Science and Technology, University of New South Wales, Centre for Advanced Macromolecular Design (CAMD), University of New South Wales – sequence: 2 givenname: Alexander F. surname: Mason fullname: Mason, Alexander F. organization: School of Chemistry, University of New South Wales, The Australian Centre for Nanomedicine and the ARC Centre of Excellence in Convergent Bio-Nano Science and Technology, University of New South Wales – sequence: 3 givenname: Martina H. surname: Stenzel fullname: Stenzel, Martina H. email: m.stenzel@unsw.edu.au organization: School of Chemistry, University of New South Wales, Centre for Advanced Macromolecular Design (CAMD), University of New South Wales – sequence: 4 givenname: Pall orcidid: 0000-0002-1200-8814 surname: Thordarson fullname: Thordarson, Pall email: p.thordarson@unsw.edu.au organization: School of Chemistry, University of New South Wales, The Australian Centre for Nanomedicine and the ARC Centre of Excellence in Convergent Bio-Nano Science and Technology, University of New South Wales |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/29093442$$D View this record in MEDLINE/PubMed |
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| SubjectTerms | 639/638/455/941 639/638/541/966 Access control Biology Block copolymers Control methods Copolymers Drug delivery Drug delivery systems Humanities and Social Sciences Hydrophobicity Membrane structure Membrane structures Morphology multidisciplinary Organic chemistry Polymerization Polymers Science Science (multidisciplinary) Self-assembly Shape control Solvation Solvents Surface stability Synthetic biology |
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| Title | Formation of non-spherical polymersomes driven by hydrophobic directional aromatic perylene interactions |
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