超分子化学
聚合
两亲性
氢键
吸附
化学
化学工程
材料科学
聚合物
共聚物
分子
有机化学
工程类
作者
Payel Khanra,Priya Rajdev,Anindita Das
出处
期刊:Angewandte Chemie
[Wiley]
日期:2024-01-24
卷期号:63 (15): e202400486-e202400486
被引量:16
标识
DOI:10.1002/anie.202400486
摘要
Abstract In biological systems, programmable supramolecular frameworks characterized by coordinated directional non‐covalent interactions are widespread. However, only a small number of reports involve pure water‐based dynamic supramolecular assembly of artificial π‐amphiphiles, primarily due to the formidable challenge of counteracting the strong hydrophobic dominance of the π‐surface in water, leading to undesired kinetic traps. This study reveals the pathway complexity in hydrogen‐bonding‐mediated supramolecular polymerization of an amide‐functionalized naphthalene monoimide (NMI) building block with a hydrophilic oligo‐oxyethylene (OE) wedge. O‐NMI‐2 initially produced entropically driven, collapsed spherical particles in water ( Agg‐1 ); however, over a span of 72 h, these metastable Agg‐1 gradually transformed into two‐dimensional (2D) nanosheets ( Agg‐2 ), favoured by both entropy and enthalpy contributions. The intricate self‐assembly pathways in O‐NMI‐2 enable us to explore seed‐induced living supramolecular polymerization (LSP) in water for controlled synthesis of monolayered 2D assemblies. Furthermore, we demonstrated the nonspecific surface adsorption of a model enzyme, serine protease α‐Chymotrypsin (α‐ChT), and consequently the enzyme activity, which could be regulated by controlling the morphological transformation of O‐NMI‐2 from Agg‐1 to Agg‐2 . We delve into the thermodynamic aspects of such shape‐dependent protein‐surface interactions and unravel the impact of seed‐induced LSP on temporally controlling the catalytic activity of α‐ChT.
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