Multi-mode supermolecular polymerization driven by host–guest interactions

Chang, Dongdong; Han, Dan; Yan, Wenhao; Yuan, Zhiyi; Wang, Qiaochun; Zou, Lei

doi:10.1039/c8ra01892h

Cited by 14 publications

(15 citation statements)

References 62 publications

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“…The formation of these larger aggregates could be attributed to the formation of 2D assemblies as reported in our previous study. 14 The degree of polymerization is in the order, ETV – 3 (CB[8]–Np–Vio–Np) > Np–Vio–Np–2CB[8] > Vio–Np–Vio-2CB[8]. Herein, the degree of polymerization is more favored for the ETV – 3 (CB[8]–Np–Vio–Np) combination guided by intermolecular CT complexation, and this result is very much related to the results obtained in UV–vis studies.…”

Section: Resultsmentioning

confidence: 99%

“…9−11 Reversible and very directional secondary interactions 12,13 such as hydrogen bonding, ion–dipole interactions, and charge–transfer interactions are used as versatile building tools to construct supramolecular polymers with specific functions as they offer controllability, reversibility, and stimuli responsive behavior. 4,5,14,15 In particular, assembly of supramolecular polymers in aqueous solutions attracts wide attention as they mimic biological systems or find applications in the areas of optics, biology, or electronics. 14,16,17 Several host and guest molecules such as cucurbit[n]urils, calixarenes, crown ethers, cyclodextrins, and so forth and viologens, pyridinium, substituted ammonium salts, and so forth were used to construct supramolecular polymers based on ion–dipole, hydrophobic, or electrostatic interactions.…”

Section: Introductionmentioning

confidence: 99%

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Facile Construction of a Supramolecular Organic Framework Using Naphthyl Viologen Guests and CB[8] Host via Charge-Transfer Complexation

2019

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Herein, we report the synthesis of guest–host systems comprising naphthyl–viologen–naphthyl (Np–Vio–Np) and viologen–naphthyl–viologen (Vio–Np–Vio) guest molecules and their subsequent supramolecular polymerization in the presence of a CB[8] host in water. In addition, the guest complexation of ethyl-terminated trimeric viologen (ETV) with Np–Vio–Np and CB[8] was investigated. As a result of supramolecular interactions, 2D supramolecular organic frameworks with high internal periodicity were constructed. 1 H NMR studies clearly demonstrated the formation of a host-stabilized charge-transfer complex via folding back (Np–Vio–Np and Vio–Np–Vio) in the presence of CB[8]. In the case of ETV + Np–Vio–Np + CB[8], a large polymeric network was formed as indicated by the NMR titrations. UV–vis and fluorescence studies clearly confirm the formation of an inter/intra molecular CT complex upon complexation with cucurbit[8]uril. The size obtained using the dynamic light scattering (DLS) method pinpoints the formation of larger supramolecular aggregates in the order of μm through host–guest assembly, which is further complemented by FESEM and TEM. SAXS measurements indicate the formation of a 2D supramolecular polymer/polymer aggregate with long-range order.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Facile Construction of a Supramolecular Organic Framework Using Naphthyl Viologen Guests and CB[8] Host via Charge-Transfer Complexation

2019

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“…Over the years, various neutral and charged organic molecular/ polymeric guests have been successfully synthesized, which exhibit high selectivity and good binding affinity towards macrocyclic hosts. [39][40][41][42][43] The binding affinity of the host-guest complexations can be fine-tuned by various stimuli-responsive factors, such as light, enzyme, redox, pH, temperature, reactive oxygen species (ROS), and ions. Thus, based on the variety of stimuli-responses and the mode of reversibility of the host-guest interactions, MPs can be specifically designed and constructed towards intended applications.…”

Section: Bin LImentioning

confidence: 99%

Macrocycles-assisted polymeric self-assemblies fabricated by host–guest complexation and their applications

Velmurugan

Mohan

et al. 2020

Mater. Adv.

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“…Thus, although such guest‐guest interactions may exist, the interactions are often called “host–guest interactions” in general terms in the literature. In the following section, the driving forces of the polymerization of covalent monomers to fabricate linear or hyperbranched polymers will be roughly classified according to the original work into three types: a) HSCT interactions, b) host‐enhanced π–π interactions, and c) other host–guest interactions . There are virtually no pros and cons for different driving forces, as each designed monomer just applies to corresponding driving forces. a) HSCT Interactions …”

Section: Cucurbit[8]uril‐based Polymersmentioning

confidence: 99%

Cucurbit[8]uril‐Based Polymers and Polymer Materials

Zou

Liu

et al. 2018

Small

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Cucurbit[8]uril (CB[8]) is unique and notable in the cucurbit[n]uril family, since it has a relatively large cavity and thus is able to simultaneously accommodate two guest molecules. Typically, an electron-deficient first guest and an electron-rich second guest can be bound by CB[8] to form a stable 1:1:1 heteroternary supramolecular complex. Additionally, two homo guests can also be strongly dimerized inside the cavity of CB[8] to form a 2:1 homoternary supramolecular complex. During the past decade, by combining polymer science and CB[8] host-guest chemistry, a variety of systems have been established to construct supramolecular polymers with polymer chains typically at the nanoscale/sub-microscale, and CB[8]-based micro/nanostructured polymer materials in the form of polymer networks and hydrogels, microcapsules, micelles, vesicles, and colloidal particles, normally in solution and occasionally on surfaces. This Review summarizes the noncovalent interactions and strategies used for the preparation of CB[8]-based polymers and polymer materials with a focus on the representative and latest developments, followed by a brief discussion of their characterization, properties, and applications.

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Multi-mode supermolecular polymerization driven by host–guest interactions

Cited by 14 publications

References 62 publications

Facile Construction of a Supramolecular Organic Framework Using Naphthyl Viologen Guests and CB[8] Host via Charge-Transfer Complexation

Facile Construction of a Supramolecular Organic Framework Using Naphthyl Viologen Guests and CB[8] Host via Charge-Transfer Complexation

Macrocycles-assisted polymeric self-assemblies fabricated by host–guest complexation and their applications

Cucurbit[8]uril‐Based Polymers and Polymer Materials

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