Straightforward preparation of supramolecular Janus nanorods by hydrogen bonding of end-functionalized polymers

Han, Shuaiyuan; Pensec, Sandrine; Yilmaz, Dijwar; Lorthioir, Cédric; Jestin, Jacques; Niepceron, Frédérick; Rieger, Jutta; Stoffelbach, François; Nicol, Erwan; Colombani, Olivier; Bouteiller, Laurent

doi:10.1038/s41467-020-18587-2

Cited by 14 publications

(12 citation statements)

References 25 publications

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“…Supramolecular polymers are endowed with unique properties, such as responsiveness and self-healing, − due to the inherent dynamic nature of the noncovalent interactions they are based on, leading to numerous potential applications as biomedical materials, adhesives, inks, or personal care products. − Noncovalent interactions, including hydrogen-bonding, − π-stacking, solvophobicity, and van der Waals, are responsible for their self-assembly into hierarchical architectures through stacking or molecular recognition of polymeric precursors. − Over the past years, the growing number of synthesized monomers has contributed significantly to the development of general design rules to facilitate monomer self-assembly in organic solvents and water. However, to further guide their rational design, it is necessary to understand factors that influence the strengths of competing noncovalent interactions either within a monomer or between them.…”

Section: Introductionmentioning

confidence: 99%

Thiosquaramide-Based Supramolecular Polymers: Aromaticity Gain in a Switched Mode of Self-Assembly

Talens

Davis

et al. 2020

J. Am. Chem. Soc.

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Despite a growing understanding of factors that drive monomer self-assembly to form supramolecular polymers, the effects of aromaticity gain have been largely ignored. Herein, we document the aromaticity gain in two different self-assembly modes of squaramide-based bolaamphiphiles. Importantly, O → S substitution in squaramide synthons resulted in supramolecular polymers with increased fiber flexibility and lower degrees of polymerization. Computations and spectroscopic experiments suggest that the oxo- and thiosquaramide bolaamphiphiles self-assemble into “head-to-tail” versus “stacked” arrangements, respectively. Computed energetic and magnetic criteria of aromaticity reveal that both modes of self-assembly increase the aromatic character of the squaramide synthons, giving rise to stronger intermolecular interactions in the resultant supramolecular polymer structures. These examples suggest that both hydrogen-bonding and stacking interactions can result in increased aromaticity upon self-assembly, highlighting its relevance in monomer design.

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Section: Introductionmentioning

confidence: 99%

Thiosquaramide-Based Supramolecular Polymers: Aromaticity Gain in a Switched Mode of Self-Assembly

Talens

Davis

et al. 2020

J. Am. Chem. Soc.

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“…The corresponding suspensions were studied by cryogenic transmission electron microscopy (cryoTEM) analysis and light scattering, which revealed the formation of small and weakly aggregated monodisperse spherical particles ( R h = 7 nm and N agg = 44) instead of the targeted one-dimensional assemblies (see the SI, Section 2.3.1). A second preparation pathway, deemed the “DMSO route”, ,, was therefore attempted: PEO-TTF-U 2 was dissolved in dimethyl sulfoxide (DMSO), a strong hydrogen bond competitor that favors its unimer state, and water was slowly added to reach a water/DMSO content of 99:1 (v/v) (see the SI, Section 2.2). CryoTEM experiments revealed that this method mainly leads to the formation of nanocylinders (Figure a), as well as a small amount of spheres.…”

Section: Resultsmentioning

confidence: 99%

“…The anisotropic character of isolated polymer nanocylinders makes them relevant for varied applications: [4][5][6][7][8][9][10][11][12][13][14][15][16][17][18] drug delivery, 19,20 synthesis of mesoporous inorganic materials, 21 catalysis, 22 organic electronics, 23 or emulsion stabilization. 24 Imparting stimuli-responsiveness to supramolecular nanocylinders may allow their disassembly after use, which can be critical to reach reversibly-controlled systems. For example, a reversible destabilisation of an emulsion can be conducted in order to recover the products of a reaction.…”

Section: Introductionmentioning

confidence: 99%

“…The latter ones protect the one-dimensional structures from lateral aggregation, resulting in isolated nanocylinders in solution. The anisotropic character of isolated polymer nanocylinders makes them relevant for various applications: − drug delivery, , synthesis of mesoporous inorganic materials, catalysis, organic electronics, or emulsion stabilization . Imparting stimuli-responsiveness to supramolecular nanocylinders may allow their disassembly after use, which can be critical to reaching reversibly controlled systems.…”

Section: Introductionmentioning

confidence: 99%

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Oxidation-Sensitive Supramolecular Polymer Nanocylinders

et al. 2022

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This study reports the synthesis and solution self-assembly of a bis(urea) derivative decorated with a poly(ethylene oxide) chain and an electroactive tetrathiafulvalene (TTF) unit, into oxidationsensitive supramolecular nanocylinders. As evidenced by cryo-transmission electron microscopy and light scattering experiments, the preparation pathway has a strong influence on the morphology and characteristics of the self-assembled structures, proving their frozen (out-of-2 equilibrium) nature. The targeted supramolecular nanocylinders could be obtained both in aqueous medium and acetonitrile. In water, TTF can be chemically oxidized to TTF •+ by Fe(III), resulting in a very moderate disassembly of the supramolecular nanocylinders. On the contrary, TTF can be oxidized up to TTF 2+ with the same oxidant in acetonitrile, leading to an almost complete disassembly of the nanocylinders. Oxidation of TTF eventually leads to its degradation in both solvents, even in the absence of oxygen and light. This paper shows that oxidation-sensitive supramolecular nanocylinders can be prepared in acetonitrile by combining bis(urea) and TTF units to a polymer.

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“…The effective success of this procedure implies that the formation of co-micelles is both thermodynamically and kinetically favorable. The premixing strategy, where both types of polymers are first blended in their unimer state in a nonassociating solvent before triggering co-assembly, ,,,,,, was therefore not required to prepare co-micelles and was not tested.…”

Section: Resultsmentioning

confidence: 99%

Hybridization of Poly(oxazoline) and Poly(ethylene oxide)-Based Amphiphilic Copolymers into Thermosensitive Mixed Micelles of Tunable Cloud Point

Gontier¹,

Renou

Colombani

et al. 2021

Langmuir

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This paper reports the development in aqueous solution of mixed micelles of tunable cloud point temperature through blending in various proportions of two copolymers of different chemical natures. For that purpose, a lipid-b-poly(2-isopropyl-2-oxazoline) (lipid-b-P(iPrOx)) copolymer, self-assembling into thermosensitive micelles that phase-separate above a cloud point temperature of 38 °C, was blended in various proportions with commercial C18-b-PEO x . The latter was constituted of a hydrophobic saturated C18 chain and a hydrophilic poly(ethylene oxide) (PEO) block with varying polymerization degrees (x) and does not have any thermosensitive properties on the studied temperature range for any value of x. The different blends were thoroughly characterized by light scattering and UV–visible spectroscopy, revealing that hybridization between both copolymers always occurred, independent of the PEO block length. The resulting mixed micelles present T CP values progressively increasing with the C18-b-PEO x proportion, from 38 to 61 °C. This study demonstrates the relevance of the blending approach to tune the phase separation of micellar systems by formulation rather than by more tedious synthetic efforts. Shifting T CP through this approach extends the range of temperature where lipid-b-P(iPrOx) can find an application.

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Straightforward preparation of supramolecular Janus nanorods by hydrogen bonding of end-functionalized polymers

Cited by 14 publications

References 25 publications

Thiosquaramide-Based Supramolecular Polymers: Aromaticity Gain in a Switched Mode of Self-Assembly

Thiosquaramide-Based Supramolecular Polymers: Aromaticity Gain in a Switched Mode of Self-Assembly

Oxidation-Sensitive Supramolecular Polymer Nanocylinders

Hybridization of Poly(oxazoline) and Poly(ethylene oxide)-Based Amphiphilic Copolymers into Thermosensitive Mixed Micelles of Tunable Cloud Point

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