Supramolecular Self-Assembly and Radical Kinetics in Conducting Self-Replicating Nanowires - Archive ouverte HAL
Article Dans Une Revue ACS Nano Année : 2014

Supramolecular Self-Assembly and Radical Kinetics in Conducting Self-Replicating Nanowires

Irina Nyrkova
Emilie Moulin
Joseph Armao
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Mounir Maaloum
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Michel Rawiso
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Frederic Niess
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Juan Jose Cid
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Nicolas Jouault
Eric Buhler

Résumé

By using a combination of experimental and theoretical tools, we elucidate unique physical characteristics of supramolecular triarylamine nanowires (STANWs), their packed structure, as well as the entire kinetics of the associated radical-controlled supramolecular polymerization process. AFM, small-angle X-ray scattering, and all-atomic computer modeling reveal the two-columnar “snowflake” internal structure of the fibers involving the p-stacking of triarylamines with alternating handedness. The polymerization process and the kinetics of triarylammonium radicals formation and decay are studied by UV-vis spectroscopy, nuclear magnetic resonance and electronic paramagnetic resonance. We fully describe these experimental data with theoretical models demonstrating that the supramolecular self-assembly starts by the production of radicals that are required for nucleation of double-columnar fibrils followed by their growth in double-strand filaments. We also elucidate nontrivial kinetics of this self-assembly process revealing sigmoid time dependency and complex self-replicating behavior. The hierarchical approach and other ideas proposed here provide a general tool to study kinetics in a large number of self-assembling fibrillar systems.
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Dates et versions

hal-04261314 , version 1 (26-10-2023)

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Irina Nyrkova, Emilie Moulin, Joseph Armao, Mounir Maaloum, Benoit Heinrich, et al.. Supramolecular Self-Assembly and Radical Kinetics in Conducting Self-Replicating Nanowires. ACS Nano, 2014, 8 (10), pp.10111-10124. ⟨10.1021/nn502863b⟩. ⟨hal-04261314⟩
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