Topological Impact on the Kinetic Stability of Supramolecular Polymers

Kinetically formed metastable molecular assemblies have attracted increasing interest especially in the field of supramolecular polymers. In most cases, metastable assemblies are ensemblies of aggregates based on the same supramolecular motif but with different lengths or sizes, and therefore their...

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Published in	Journal of the American Chemical Society Vol. 141; no. 33; pp. 13196 - 13202
Main Authors	Suzuki, Atsuhito, Aratsu, Keisuke, Datta, Sougata, Shimizu, Nobutaka, Takagi, Hideaki, Haruki, Rie, Adachi, Shin-ichi, Hollamby, Martin, Silly, Fabien, Yagai, Shiki
Format	Journal Article
Language	English
Published	United States American Chemical Society 21.08.2019
Subjects	Condensed Matter Materials Science Physics
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Abstract	Kinetically formed metastable molecular assemblies have attracted increasing interest especially in the field of supramolecular polymers. In most cases, metastable assemblies are ensemblies of aggregates based on the same supramolecular motif but with different lengths or sizes, and therefore their kinetic stabilities are experimentally indistinguishable. Herein, we demonstrate a topological effect on kinetic stabilities in a complex mixture of metastable supramolecular polymers. Our azobenzene-incorporated monomer upon heating in nonpolar solvent at ambient temperature kinetically forms complex mixtures of supramolecular polymers with cyclized and open-ended randomly coiled topologies. Upon further heating, we obtained thermodynamically stable twisted fibrils organizing into crystalline fibers. Through the direct visualization of the complex supramolecular polymer mixtures by atomic force microscopy, we demonstrate that the cyclized supramolecular polymer has superior kinetic stability compared to the open-ended species toward the thermal transformation into twisted fibrils. Since the superior kinetic stability of the cyclized species can be attributed to the absence of aggregate termini, we could convert them fully into the thermodynamic species through photoinduced opening of the cyclized structures.
AbstractList	Kinetically formed metastable molecular assemblies have attracted increasing interest especially in the field of supramolecular polymers. In most cases, metastable assemblies are ensembles of aggregates based on the same supramolecular motif but with different lengths or sizes, and therefore their kinetic stabilities are experimentally indistinguishable. Herein, we demonstrate a topological effect on kinetic stabilities in a complex mixture of metastable su-pramolecular polymers. Our azobenzene-incorporated monomer at ambient temperature kinetically forms complex mixtures of supramolecular polymers with cyclized and open-ended randomly coiled topologies, while upon heating we obtained thermodynamically stable crystalline fibers. Through the direct visualization of the complex supramolecular polymer mixtures by atomic force microscopy, we demonstrate that the cyclized supramolecular polymer has superior kinetic stability compared to the open-ended species toward the thermal transformation into crystalline fibers. Since the superior kinetic stability of the cyclized species can be attributed to the absence of aggregate termini, we could convert them fully into the thermodynamic species through photo-induced opening of the cyclized structures. Kinetically formed metastable molecular assemblies have attracted increasing interest especially in the field of supramolecular polymers. In most cases, metastable assemblies are ensemblies of aggregates based on the same supramolecular motif but with different lengths or sizes, and therefore their kinetic stabilities are experimentally indistinguishable. Herein, we demonstrate a topological effect on kinetic stabilities in a complex mixture of metastable supramolecular polymers. Our azobenzene-incorporated monomer upon heating in nonpolar solvent at ambient temperature kinetically forms complex mixtures of supramolecular polymers with cyclized and open-ended randomly coiled topologies. Upon further heating, we obtained thermodynamically stable twisted fibrils organizing into crystalline fibers. Through the direct visualization of the complex supramolecular polymer mixtures by atomic force microscopy, we demonstrate that the cyclized supramolecular polymer has superior kinetic stability compared to the open-ended species toward the thermal transformation into twisted fibrils. Since the superior kinetic stability of the cyclized species can be attributed to the absence of aggregate termini, we could convert them fully into the thermodynamic species through photoinduced opening of the cyclized structures.
Author	Takagi, Hideaki Datta, Sougata Adachi, Shin-ichi Silly, Fabien Yagai, Shiki Hollamby, Martin Shimizu, Nobutaka Haruki, Rie Suzuki, Atsuhito Aratsu, Keisuke
AuthorAffiliation	School of Physical and Geographical Sciences Keele University Division of Advanced Science and Engineering, Graduate School of Engineering Institute for Global Prominent Research (IGPR) Photon Factory, Institute of Materials Structure Science Université ParisSaclay TITANS, SPEC, CEA, CNRS
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Title	Topological Impact on the Kinetic Stability of Supramolecular Polymers
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