分子间力
静电纺丝
纳米纤维
聚合物
材料科学
化学工程
分子间相互作用
碳氢化合物
制作
化学物理
纤维
化学
纳米技术
分子
高分子化学
分子动力学
作者
Naoto Hirano,Yuto Sasagawa,Hiroaki Yoshida,Hiroharu Ajiro
出处
期刊:Nanoscale
[Royal Society of Chemistry]
日期:2025-12-03
卷期号:18 (3): 1376-1383
被引量:1
摘要
Polymer-free electrospinning enables the fabrication of nanofibers from low-molecular-weight compounds without polymeric additives, where intermolecular interactions or molecular aggregates substitute for polymer chain entanglements. Cyclodextrins (CDs) are among the most widely studied examples, yet the electrospinning behavior of hydrophobic CDs lacking hydroxyl groups remains poorly understood. Here, we investigated the viscosity, solubility, and spinnability of four side-chain-modified β-cyclodextrins-triacetyl (TAc), tripropionyl (TPr), tributanoyl (TBu), and triethyl (TEt)-to elucidate the role of intermolecular interactions in electrospinning. Triacetyl-β-cyclodextrin (TAc-β-CD) exhibited spinnability from supersaturated solutions, where weak interactions between carbonyl and hydrocarbon groups were suggested by viscosity, NMR, and FT-IR analyses. Comparative studies revealed that CDs with stronger intermolecular interactions and higher melting points could be electrospun at lower concentrations, while weaker interactions required higher concentrations. Notably, TEt-β-CD, which lacks carbonyl groups, was successfully electrospun across a broad concentration range (110-250 w/v%) with excellent stability, despite its weak intermolecular interactions. These results indicate that polymer-free electrospinning can proceed without the formation of stable or long-lived molecular aggregates. Rather, weak and transient intermolecular interactions at high concentrations appear sufficient to maintain the solution continuity required for fiber formation. This systematic comparison across β-cyclodextrin derivatives clarifies the physicochemical conditions under which low-molecular-weight compounds can be electrospun.
科研通智能强力驱动
Strongly Powered by AbleSci AI