Emergence, evidence, and effect of junction clustering in supramolecular polymer materials

Abstract: In this review, the origin of clusters in supramolecular polymer materials, their characterization, their effects on the dynamic and mechanical properties, and their potentials for designing functional materials are overviewed.

“…Such a clustering of the supramolecular stickers is generally known to enforce networks if it contributes to a higher coordination number, stabilizes weak supramolecular bonds, or develops intrachain connections to elastically active interchain junctions. 24 In view of these insights and the DLS measurements performed on the precursor polymer solutions, a likely explanation for the enhancement of the here-in investigated PU gels is therefore a comparable sticker aggregation. Based on the calculated mass fraction of the aggregates (≈10 wt %), we suspect the PU networks to be a mixture of binary sticker assemblies with randomly distributed clusters with higher functionalities.…”

“…Here, cryo-transmission electron microscopy revealed that the Upy–Upy interactions are shielded from the aqueous surrounding in segregated pockets comprising Upy aggregates. Such a clustering of the supramolecular stickers is generally known to enforce networks if it contributes to a higher coordination number, stabilizes weak supramolecular bonds, or develops intrachain connections to elastically active interchain junctions . In view of these insights and the DLS measurements performed on the precursor polymer solutions, a likely explanation for the enhancement of the here-in investigated PU gels is therefore a comparable sticker aggregation.…”

“…Accordingly, the network relaxation times in supramolecular gels comprising sticker clusters are commonly prolonged. 24 Furthermore, the formation of multivalent supernodes with high degrees of network connectivity has been applied to explain counterintuitive network enforcements reported in some studies. In an illustrative example, Weck et al studied reversible networks cross-linked by hydrogen-bond arrays with differing valency and observed that it is rather the sticker tendency to assemble into clusters than their intrinsic association constant which determines the network elasticity.…”

“…The binding situation inside these clusters resembles that of a multivalent sticker with a large energy barrier for the dissociation of a single sticker. Accordingly, the network relaxation times in supramolecular gels comprising sticker clusters are commonly prolonged . Furthermore, the formation of multivalent supernodes with high degrees of network connectivity has been applied to explain counterintuitive network enforcements reported in some studies.…”

Sticker Multivalency in Metallo-supramolecular Polymer Networks

“…Such a clustering of the supramolecular stickers is generally known to enforce networks if it contributes to a higher coordination number, stabilizes weak supramolecular bonds, or develops intrachain connections to elastically active interchain junctions. 24 In view of these insights and the DLS measurements performed on the precursor polymer solutions, a likely explanation for the enhancement of the here-in investigated PU gels is therefore a comparable sticker aggregation. Based on the calculated mass fraction of the aggregates (≈10 wt %), we suspect the PU networks to be a mixture of binary sticker assemblies with randomly distributed clusters with higher functionalities.…”

“…Here, cryo-transmission electron microscopy revealed that the Upy–Upy interactions are shielded from the aqueous surrounding in segregated pockets comprising Upy aggregates. Such a clustering of the supramolecular stickers is generally known to enforce networks if it contributes to a higher coordination number, stabilizes weak supramolecular bonds, or develops intrachain connections to elastically active interchain junctions . In view of these insights and the DLS measurements performed on the precursor polymer solutions, a likely explanation for the enhancement of the here-in investigated PU gels is therefore a comparable sticker aggregation.…”

“…Accordingly, the network relaxation times in supramolecular gels comprising sticker clusters are commonly prolonged. 24 Furthermore, the formation of multivalent supernodes with high degrees of network connectivity has been applied to explain counterintuitive network enforcements reported in some studies. In an illustrative example, Weck et al studied reversible networks cross-linked by hydrogen-bond arrays with differing valency and observed that it is rather the sticker tendency to assemble into clusters than their intrinsic association constant which determines the network elasticity.…”

“…The binding situation inside these clusters resembles that of a multivalent sticker with a large energy barrier for the dissociation of a single sticker. Accordingly, the network relaxation times in supramolecular gels comprising sticker clusters are commonly prolonged . Furthermore, the formation of multivalent supernodes with high degrees of network connectivity has been applied to explain counterintuitive network enforcements reported in some studies.…”

Sticker Multivalency in Metallo-supramolecular Polymer Networks

“…Here phase transformation between the perforated nanovesicle and nanovesicle was achieved through changes in the system temperature. Supramolecular nanoaggregates that are driven by hydrogen bonding interactions have also attracted much attention 40–44 . The hydrogen bonding force is influenced by temperature, pH and solvent polarity; therefore, stimuli‐responsive supramolecular nanostructures can be prepared by employing molecules with hydrogen bonds, with potential applications in various materials, such as memory and self‐healing materials 45–49 …”

Construction of nanoaggregates from amphiphilic supramolecules containing barbiturate and Hamilton wedge units

Effect of Junction Aggregation on the Dynamics of Supramolecular Polymers and Networks