强氢键可维持骨架烷基链长的聚酯酰胺的偶数效应

IF 5.5 2区化学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY

Biomacromolecules Pub Date : 2024-11-11 Epub Date: 2024-10-29 DOI:10.1021/acs.biomac.4c01191

Leire Sangroniz, Jorge L Olmedo-Martínez, Wenxian Hu, Yoon-Jung Jang, Guoming Liu, Marc A Hillmyer, Alejandro J Müller

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引用次数: 0

摘要

聚合物重复单元中相互作用强烈的官能团之间的亚甲基数量会对热性能和机械性能产生偶数效应。然而，目前仍缺乏将偶数效应与结构变化相关联的详细研究。在这项研究中，我们建立了含有长烷基链的聚酯酰胺的结构与热性能之间的相关性。偶偶数效应会影响热性能，包括熔化温度和结晶度。它还会影响聚（酯酰胺）的球状形态，控制条带的出现。我们的研究表明，即使重复单元中有 27 个 CH2 基团，聚（酯）酰胺中的偶偶数效应仍然存在，这是由于酰胺基团产生的强氢键效应。我们的 X 射线研究表明，偶数效应源于材料晶体结构的变化。这项研究有助于阐明强分子间相互作用（即氢键）对长链聚（酯酰胺）偶数效应的作用。

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Strong Hydrogen Bonds Sustain Even-Odd Effects in Poly(ester amide)s with Long Alkyl Chain Length in the Backbone.

The number of methylene groups between strongly interacting functional groups within polymer repeating units induces even-odd effects on thermal and mechanical properties. However, detailed studies correlating the even-odd effect with structural changes are still lacking. In this work, we establish correlations between the structure and thermal properties of poly(ester amide)s containing long alkyl chain lengths. The even-odd effect impacts the thermal properties, including the melting temperature and crystallinity degree. It influences the spherulitic morphology of poly(ester amide)s, controlling the appearance of banding. We demonstrate that even-odd effects in poly(ester amides)s persist even with 27 CH₂ groups within the repeating unit, an effect due to strong hydrogen bonds caused by the amide groups. Our X-ray studies reveal that the even-odd effect originates from changes in the crystalline structure of the materials. This work helps elucidate the role of strong intermolecular interactions (i.e., hydrogen bonding) on the even-odd effect in long-chain poly(ester amides).

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来源期刊

Biomacromolecules 化学-高分子科学

CiteScore

10.60

自引率

4.80%

发文量

417

审稿时长

1.6 months

期刊介绍： Biomacromolecules is a leading forum for the dissemination of cutting-edge research at the interface of polymer science and biology. Submissions to Biomacromolecules should contain strong elements of innovation in terms of macromolecular design, synthesis and characterization, or in the application of polymer materials to biology and medicine. Topics covered by Biomacromolecules include, but are not exclusively limited to: sustainable polymers, polymers based on natural and renewable resources, degradable polymers, polymer conjugates, polymeric drugs, polymers in biocatalysis, biomacromolecular assembly, biomimetic polymers, polymer-biomineral hybrids, biomimetic-polymer processing, polymer recycling, bioactive polymer surfaces, original polymer design for biomedical applications such as immunotherapy, drug delivery, gene delivery, antimicrobial applications, diagnostic imaging and biosensing, polymers in tissue engineering and regenerative medicine, polymeric scaffolds and hydrogels for cell culture and delivery.