From Photoinduced Supramolecular Polymerization to Responsive Organogels

Xu, Fan; Pfeifer, Lukas; Crespi, Stefano; Leung, Franco King‐Chi; Stuart, Marc C. A.; Wezenberg, Sander J.; Feringa, Ben L.

doi:10.1021/jacs.1c01802

Cited by 94 publications

(85 citation statements)

References 78 publications

(216 reference statements)

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“…2a), comparable with the spectrum of the aggregates in toluene. 63 Upon heating, the band at 371 nm decreases in intensity, accompanied by the formation of two new local maxima at 340 nm and 357 nm, resulting in a spectrum that closely resembles the one of monomeric (E)-SA dissolved in an organic solvent (e.g., DMSO). 63 These changes indicate the disassembly of the supramolecular polymer during heating.…”

Section: Resultsmentioning

confidence: 99%

“…Stiff-stilbene is a five-membered ring analog of stilbene 54 used for various applications, e.g., switchable receptors/ligands, [55][56][57][58] force probes, 59 and aggregation-induced emission. 60 The C-Ph torsion angle of the (E)isomer is nearly zero, 61 imposing a planar π system and facilitating the formation of supramolecular assemblies, 54,[62][63][64] whereas the (Z)-isomer loses this planarity. 65 The huge geometric differences between (E)and (Z)-isomers offer the opportunity to study the influence of π-π interactions on supramolecular polymerization.…”

Section: Introductionmentioning

confidence: 99%

“…64 Recently, we reported a photo-induced cooperative supramolecular polymerization of stiffstilbene bis-ureas in toluene, taking advantage of the geometric differences and changes in the intramolecular and intermolecular hydrogen-bonding between isomers. 63 In the present study, we investigated the assembly and disassembly of a photoswitchable stiff-stilbene bis-urea amphiphile (SA) in pure water. We compared the experimental thermodynamic parameters of its assembly process in water and toluene, to gain insights into the role of hydrogen bonding, π-stacking, and hydrophobic effects in supramolecular polymerization in water (Fig.…”

Section: Introductionmentioning

confidence: 99%

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Mechanistic Insight into Supramolecular Polymerization in Water Tunable by Molecular Geometry

Crespi

Pfeifer

et al. 2022

CCS Chem

Self Cite

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Supramolecular self-assembly in water is attracting major attention due to the potential of hydrogels and aqueous polymers based on non-covalent bonding for biomedical applications. Although supramolecular polymerization in organic solvents is well established, the key design features, the assembly mechanisms in water and achieving control over the aggregate structures remain challenging. Here, we present the assembly and disassembly of geometrical isomers of a stiff-stilbene bis-urea amphiphile (SA) in pure water. A remarkable feature of this system is that the (E)-isomer forms supramolecular polymers in both pure water and organic solvents. Taking advantage of this unique property, the hydrophobic effect could be studied by comparing the supramolecular assembly in both systems. The assembly process in water follows an enthalpy-driven nucleation-elongation (cooperative) supramolecular polymerization mechanism with a standard Gibbs free energy (ΔG° = -53 kJ mol −1 ), double the value compared to the one found in toluene. This distinctive feature is attributed to the hydrophobic effect in water. Furthermore, we discovered an isomer-dependent assembly process, which can be

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Mechanistic Insight into Supramolecular Polymerization in Water Tunable by Molecular Geometry

Crespi

Pfeifer

et al. 2022

CCS Chem

Self Cite

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“…The researchers rationalized that the presence of the sodium ion could stem from the pH-triggered gelation procedure ( Figure 2 ). Following this study, other groups relied on DFT calculations to suggest a reasonable supramolecular stacking of gelators, from which both structural and electronic information could be retrieved [ 30 , 31 , 32 , 33 , 34 ]. However, the computational requirements of the quantum mechanical DFT calculations limit the size of the system that can be tackled.…”

Section: Rationalizing Supramolecular Gelationmentioning

confidence: 99%

Computational Tools to Rationalize and Predict the Self-Assembly Behavior of Supramolecular Gels

Lommel

Borggraeve

Proft

et al. 2021

Gels

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Supramolecular gels form a class of soft materials that has been heavily explored by the chemical community in the past 20 years. While a multitude of experimental techniques has demonstrated its usefulness when characterizing these materials, the potential value of computational techniques has received much less attention. This review aims to provide a complete overview of studies that employ computational tools to obtain a better fundamental understanding of the self-assembly behavior of supramolecular gels or to accelerate their development by means of prediction. As such, we hope to stimulate researchers to consider using computational tools when investigating these intriguing materials. In the concluding remarks, we address future challenges faced by the field and formulate our vision on how computational methods could help overcoming them.

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“…Recognition, combination, and repeated arrays of complementary monomeric building blocks connected by highly directional and reversible non-covalent interactions yield supramolecular polymers [ 1 , 2 , 3 ]. Supramolecular polymers and gels have potential due to their wide applications in various fields such as optoelectronics [ 4 , 5 ], delivery vehicles [ 6 , 7 ], tissue repairing and engineering [ 8 , 9 , 10 , 11 ], and stimuli-responsive materials [ 12 , 13 , 14 ]. Supramolecular polymers are formed by highly directional and reversible non-covalent interactions such as hydrogen bonding, π-π stacking, Van der Waals interaction and hydrophobic interactions [ 15 , 16 , 17 , 18 ].…”

Section: Introductionmentioning

confidence: 99%

White-Light-Emitting Supramolecular Polymer Gel Based on β-CD and NDI Host-Guest Inclusion Complex

et al. 2021

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Supramolecular polymer formed by non-covalent interactions between complementary building blocks entraps solvents and develops supramolecular polymer gel. A supramolecular polymer gel was prepared by the heating-cooling cycle of β-cyclodextrin (β-CD) and naphthalenedimide (NDI) solution in N,N-dimethylformamide (DMF). The host-guest inclusion complex of β-CD and NDI 1 containing dodecyl amine forms the supramolecular polymer and gel in DMF. However, β-CD and NDI 2, having glutamic acid, fail to form the supramolecular polymer and gel under the same condition. X-ray crystallography shows that the alkyl chains of NDI 1 are complementary to the hydrophobic cavity of the two β-CD units. From rheology, the storage modulus was approximately 1.5 orders of magnitude larger than the loss modulus, which indicates the physical crosslink and elastic nature of the thermo-responsive gel. FE-SEM images of the supramolecular polymer gel exhibit flake-like morphology and a dense flake network. The flakes developed from the assembly of smaller rods. Photophysical studies show that the host-guest complex formation and gelation have significantly enhanced emission intensity with a new hump at 550 nm. Upon excitation by a 366 nm UV-light, NDI 1 and β-CD gel in DMF shows white light emission. The gel has the potential for the fabrication of organic electronic devices.

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From Photoinduced Supramolecular Polymerization to Responsive Organogels

Cited by 94 publications

References 78 publications

Mechanistic Insight into Supramolecular Polymerization in Water Tunable by Molecular Geometry

Mechanistic Insight into Supramolecular Polymerization in Water Tunable by Molecular Geometry

Computational Tools to Rationalize and Predict the Self-Assembly Behavior of Supramolecular Gels

White-Light-Emitting Supramolecular Polymer Gel Based on β-CD and NDI Host-Guest Inclusion Complex

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