Controlled Self‐Assembly of Natural Polyphenols Driven by Multiple Molecular Interactions
Nature has exhibited a high degree of control over the structures and functions. Supramolecules have been utilized to mimic the subtle assembly in nature. However, sophisticated synthesis of molecular skeletons or programmable design of the driving forces raises great challenges in fabricating high‐...
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| Veröffentlicht in: | ChemPlusChem (Weinheim, Germany) Germany), 2024-05, Vol.89 (5), p.e202300695-n/a |
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| creator | Yin, Yun Zhang, Yajing Xie, Qiuping He, Yunxiang Guo, Junling |
| description | Nature has exhibited a high degree of control over the structures and functions. Supramolecules have been utilized to mimic the subtle assembly in nature. However, sophisticated synthesis of molecular skeletons or programmable design of the driving forces raises great challenges in fabricating high‐level superstructures in a controlled manner. Natural polyphenols show great promises as building blocks for a diverse of assemblies with controlled structures and functionalities. The intrinsically embedded phenolic groups (i. e., catechol and galloyl groups) are readily forming multiple molecular interactions, including coordination, hydrogen bonding, and π–π interactions with various materials of inorganic particles, organic compounds, synthetic polymers, and biomacromolecules, providing the self‐assembled structures or nanocoating on surfaces. Subsequent assembly occurred by further bonding of polyphenols to construct supraparticles. To gain control over the self‐assembly, the key lies in the interplay among the molecular interactions with one or two being dominant. In this Perspective, we introduce the representative polyphenol‐based assemblies and their derived supraparticles to exhibit the effective harness of the controlled self‐assembly by polyphenols.
The versatile catechol and galloyl groups of natural polyphenols are readily forming multiple molecular interactions or covalent bonding interactions with various materials. The control of the dominant driving forces for the building blocks using natural polyphenols can achieve morphological diversity and function tailorability of assembled architectures and materials. |
| doi_str_mv | 10.1002/cplu.202300695 |
| format | Article |
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The versatile catechol and galloyl groups of natural polyphenols are readily forming multiple molecular interactions or covalent bonding interactions with various materials. 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Supramolecules have been utilized to mimic the subtle assembly in nature. However, sophisticated synthesis of molecular skeletons or programmable design of the driving forces raises great challenges in fabricating high‐level superstructures in a controlled manner. Natural polyphenols show great promises as building blocks for a diverse of assemblies with controlled structures and functionalities. The intrinsically embedded phenolic groups (i. e., catechol and galloyl groups) are readily forming multiple molecular interactions, including coordination, hydrogen bonding, and π–π interactions with various materials of inorganic particles, organic compounds, synthetic polymers, and biomacromolecules, providing the self‐assembled structures or nanocoating on surfaces. Subsequent assembly occurred by further bonding of polyphenols to construct supraparticles. To gain control over the self‐assembly, the key lies in the interplay among the molecular interactions with one or two being dominant. In this Perspective, we introduce the representative polyphenol‐based assemblies and their derived supraparticles to exhibit the effective harness of the controlled self‐assembly by polyphenols.
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| source | Wiley Online Library Journals Frontfile Complete |
| subjects | Adhesion Assemblies Catechol Chemical synthesis Hydrogen bonding Molecular interactions nanocomplexes Organic compounds Phenols Polymers polyphenol Polyphenols Self-assembly structural control Structures Superstructures supraparticles |
| title | Controlled Self‐Assembly of Natural Polyphenols Driven by Multiple Molecular Interactions |
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