Photostable Helical Polyfurans

Anthony J. Varni; Andria Fortney; Matthew A. Baker; Joshua C. Worch; Yunyan Qiu; David Yaron; Stefan Bernhard; Kevin J.T. Noonan; Tomasz Kowalewski

doi:10.1021/jacs.9b01567

Photostable Helical Polyfurans

Anthony J. Varni, Andria Fortney, Matthew A. Baker, Joshua C. Worch, Yunyan Qiu, David Yaron, Stefan Bernhard, Kevin J.T. Noonan^*, Tomasz Kowalewski

^*Corresponding author for this work

Chemistry

Research output: Contribution to journal › Article › peer-review

41 Scopus citations

Abstract

This report describes the design and synthesis of a new class of polyfurans bearing ester side chains. The macromolecules can be synthesized using catalyst-transfer polycondensation, providing precise control over molecular weight and molecular weight distribution. Such obtained furan ester polymers are significantly more photostable than their alkyl analogues owing to the electron-withdrawing nature of the attached subunit. Most interestingly, they spontaneously fold into a compact π-stacked helix, yielding a complex multilayer cylindrical nanoparticle with a hollow, rigid, conjugated core composed of the polyfuran backbone and a soft, insulating outer layer formed by the ester side chains. The length of polymer side chains dictates the outer diameter of such nanoparticles, which for the hexyl ester groups used in the present study is equal to ∼2.3 nm. The inner cavity of the conjugated core is lined with oxygen atoms, which set its effective diameter to 0.4 nm. Furthermore, installation of bulkier, branched chiral ester side chains on the repeat unit yields structures that, upon change of solvent, can reversibly transition between an ordered chiral helical folded and disordered unfolded state.

Original language	English (US)
Pages (from-to)	8858-8867
Number of pages	10
Journal	Journal of the American Chemical Society
Volume	141
Issue number	22
DOIs	https://doi.org/10.1021/jacs.9b01567
State	Published - Jun 5 2019

Funding

K.J.T.N. is grateful to the ARO (W911NF-16-1-0053) and NSF for a Career Award (CHE-1455136). S.B. is also grateful to NSF for support (CHE-1764353). K.J.T.N. thanks Geoff Hutchison (University of Pittsburgh), Sam Gellman (University of Wisconsin), Catalina Achim (CMU), and Bruce Armitage (CMU) for helpful discussions. Finally, the authors are also grateful to Linda Peteanu (CMU) and Stephanie Kramer for their help with fluorescence measurements.

ASJC Scopus subject areas

Catalysis
General Chemistry
Biochemistry
Colloid and Surface Chemistry

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10.1021/jacs.9b01567

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title = "Photostable Helical Polyfurans",

abstract = "This report describes the design and synthesis of a new class of polyfurans bearing ester side chains. The macromolecules can be synthesized using catalyst-transfer polycondensation, providing precise control over molecular weight and molecular weight distribution. Such obtained furan ester polymers are significantly more photostable than their alkyl analogues owing to the electron-withdrawing nature of the attached subunit. Most interestingly, they spontaneously fold into a compact π-stacked helix, yielding a complex multilayer cylindrical nanoparticle with a hollow, rigid, conjugated core composed of the polyfuran backbone and a soft, insulating outer layer formed by the ester side chains. The length of polymer side chains dictates the outer diameter of such nanoparticles, which for the hexyl ester groups used in the present study is equal to ∼2.3 nm. The inner cavity of the conjugated core is lined with oxygen atoms, which set its effective diameter to 0.4 nm. Furthermore, installation of bulkier, branched chiral ester side chains on the repeat unit yields structures that, upon change of solvent, can reversibly transition between an ordered chiral helical folded and disordered unfolded state.",

author = "Varni, {Anthony J.} and Andria Fortney and Baker, {Matthew A.} and Worch, {Joshua C.} and Yunyan Qiu and David Yaron and Stefan Bernhard and Noonan, {Kevin J.T.} and Tomasz Kowalewski",

note = "Funding Information: K.J.T.N. is grateful to the ARO (W911NF-16-1-0053) and NSF for a Career Award (CHE-1455136). S.B. is also grateful to NSF for support (CHE-1764353). K.J.T.N. thanks Geoff Hutchison (University of Pittsburgh), Sam Gellman (University of Wisconsin), Catalina Achim (CMU), and Bruce Armitage (CMU) for helpful discussions. Finally, the authors are also grateful to Linda Peteanu (CMU) and Stephanie Kramer for their help with fluorescence measurements. Publisher Copyright: {\textcopyright} 2019 American Chemical Society.",

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AU - Yaron, David

AU - Bernhard, Stefan

AU - Noonan, Kevin J.T.

AU - Kowalewski, Tomasz

N1 - Funding Information: K.J.T.N. is grateful to the ARO (W911NF-16-1-0053) and NSF for a Career Award (CHE-1455136). S.B. is also grateful to NSF for support (CHE-1764353). K.J.T.N. thanks Geoff Hutchison (University of Pittsburgh), Sam Gellman (University of Wisconsin), Catalina Achim (CMU), and Bruce Armitage (CMU) for helpful discussions. Finally, the authors are also grateful to Linda Peteanu (CMU) and Stephanie Kramer for their help with fluorescence measurements. Publisher Copyright: © 2019 American Chemical Society.

PY - 2019/6/5

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N2 - This report describes the design and synthesis of a new class of polyfurans bearing ester side chains. The macromolecules can be synthesized using catalyst-transfer polycondensation, providing precise control over molecular weight and molecular weight distribution. Such obtained furan ester polymers are significantly more photostable than their alkyl analogues owing to the electron-withdrawing nature of the attached subunit. Most interestingly, they spontaneously fold into a compact π-stacked helix, yielding a complex multilayer cylindrical nanoparticle with a hollow, rigid, conjugated core composed of the polyfuran backbone and a soft, insulating outer layer formed by the ester side chains. The length of polymer side chains dictates the outer diameter of such nanoparticles, which for the hexyl ester groups used in the present study is equal to ∼2.3 nm. The inner cavity of the conjugated core is lined with oxygen atoms, which set its effective diameter to 0.4 nm. Furthermore, installation of bulkier, branched chiral ester side chains on the repeat unit yields structures that, upon change of solvent, can reversibly transition between an ordered chiral helical folded and disordered unfolded state.

AB - This report describes the design and synthesis of a new class of polyfurans bearing ester side chains. The macromolecules can be synthesized using catalyst-transfer polycondensation, providing precise control over molecular weight and molecular weight distribution. Such obtained furan ester polymers are significantly more photostable than their alkyl analogues owing to the electron-withdrawing nature of the attached subunit. Most interestingly, they spontaneously fold into a compact π-stacked helix, yielding a complex multilayer cylindrical nanoparticle with a hollow, rigid, conjugated core composed of the polyfuran backbone and a soft, insulating outer layer formed by the ester side chains. The length of polymer side chains dictates the outer diameter of such nanoparticles, which for the hexyl ester groups used in the present study is equal to ∼2.3 nm. The inner cavity of the conjugated core is lined with oxygen atoms, which set its effective diameter to 0.4 nm. Furthermore, installation of bulkier, branched chiral ester side chains on the repeat unit yields structures that, upon change of solvent, can reversibly transition between an ordered chiral helical folded and disordered unfolded state.

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Photostable Helical Polyfurans

Abstract

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