Yin Qiao , Xun Wang , Cong Yu, Yutong Liu, Zesheng Song, Xinyi Zhang, Haixia Qi, Feng Liu
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引用次数: 0
摘要
氢键(H-bonds),通常是主链酰胺 H-bonds,通过加强大分子相互作用而在调节聚酰亚胺(PIs)性能方面发挥着重要作用,这一点已得到广泛认可。虽然对称主链酰胺 H 键聚酰亚胺的结构-性能关系已得到广泛研究,但对非对称 H 键聚酰亚胺,尤其是那些含有刚柔相济骨架结构和侧链参与 H 键的聚酰亚胺的研究却很少。在此,我们从二胺单体的设计合成入手,提出了两个系列的不对称 PI,它们含有刚性酰胺和柔性醚链,可形成主链酰胺-酰胺和酰胺-酰亚胺 H 键,缺乏或含有下垂的三氟甲基(-CF3),可形成侧链参与的酰胺-CF3 H 键。通过 RDF 模拟揭示了这三种类型 H 键的存在,并通过傅立叶变换红外光谱进行了确认。与侧链参与 H 键的 PI(PI-Tx)相比,主链 H 键的 PI(PI-Ax)显示出更高的 Tg,而 PI-Tx 系列比 PI-Ax 显示出更高的光学透明度和疏水性、更低的介电常数(ε')和更好的机械性能。从实验和理论计算两个方面对 PIs 的溶解度、WAXD 光谱、热性能、荧光发射和光学透明度、二面角 (φ)、自由体积分数 (FFV)、理论气体传输性能、链几何优化和 HOMO-LUMO 能隙 (ΔE)值等进行了全面研究。
Mainchain and sidechain-involving H-bonded asymmetric polyimides containing rigid amide and flexible ether linkages
Hydrogen bonds (H-bonds), usually mainchain amide H-bonds, have been well recognized to play important roles in modulating the properties of polyimides (PIs) by strengthening macromolecular interaction. While the structure-properties relationships of symmetric mainchain amide H-bonded PIs have been extensively researched, the asymmetric H-bonded PIs, particularly those containing rigid-flexible backbone structure, and sidechain-involving H-bonds, have been rarely explored. Herein, starting from designed synthesis of diamine monomers, we present two series of asymmetric PIs containing rigid amide and flexible ether linkages that form mainchain amide-amide and amide-imide H-bonds, lacking or bearing pendent trifluoromethyls (-CF3) that form sidechain-involving amide-CF3 H-bonds. The presence of these three types of H-bonds were revealed by RDF simulation and confirmed by FTIR. Mainchain H-bonded PIs (PI-Ax) show higher Tg than sidechain-involving H-bonded PIs (PI-Tx), while PI-Tx series exhibit higher optical transparency and hydrophobicity, lower dielectric constant (ε′) and better mechanical properties than PI-Ax. The general researches on the PIs’ solubility, WAXD spectra, thermal properties, fluorescence emission and optical transparency, the dihedral angles (φ), fractional free volume (FFV), theoretical gas transport properties, chain geometry optimization and HOMO-LUMO energy gap (ΔE) values have been comprehensively carried out from the aspects of both experiments and theoretical calculation.
期刊介绍:
Polymer is an interdisciplinary journal dedicated to publishing innovative and significant advances in Polymer Physics, Chemistry and Technology. We welcome submissions on polymer hybrids, nanocomposites, characterisation and self-assembly. Polymer also publishes work on the technological application of polymers in energy and optoelectronics.
The main scope is covered but not limited to the following core areas:
Polymer Materials
Nanocomposites and hybrid nanomaterials
Polymer blends, films, fibres, networks and porous materials
Physical Characterization
Characterisation, modelling and simulation* of molecular and materials properties in bulk, solution, and thin films
Polymer Engineering
Advanced multiscale processing methods
Polymer Synthesis, Modification and Self-assembly
Including designer polymer architectures, mechanisms and kinetics, and supramolecular polymerization
Technological Applications
Polymers for energy generation and storage
Polymer membranes for separation technology
Polymers for opto- and microelectronics.
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