通过快速扫描量热法探究主链刚性对固有微孔聚合物玻璃化转变的影响。

Effect of Backbone Rigidity on the Glass Transition of Polymers of Intrinsic Microporosity Probed by Fast Scanning Calorimetry.

作者信息

Yin Huajie, Yang Bin, Chua Yeong Zen, Szymoniak Paulina, Carta Mariolino, Malpass-Evans Richard, McKeown Neil B, Harrison Wayne J, Budd Peter M, Schick Christoph, Böhning Martin, Schönhals Andreas

机构信息

Bundesanstalt für Materialforschung und -prüfung (BAM), Unter den Eichen 87, 12205 Berlin, Germany.

University of Rostock, Institute of Physics and Competence Center CALOR, Albert-Einstein-Str. 23-24, 18059 Rostock, Germany.

出版信息

ACS Macro Lett. 2019 Aug 20;8(8):1022-1028. doi: 10.1021/acsmacrolett.9b00482. Epub 2019 Aug 2.

DOI:10.1021/acsmacrolett.9b00482

PMID:35619481

Abstract

Polymers of Intrinsic Microporosity (PIMs) of high performance have developed as materials with a wide application range in gas separation and other energy-related fields. Further optimization and long-term behavior of devices with PIMs require an understanding of the structure-property relationships, including physical aging. In this context, the glass transition plays a central role, but with conventional thermal analysis a glass transition is usually not detectable for PIMs before their thermal decomposition. Fast scanning calorimetry provides evidence of the glass transition for a series of PIMs, as the time scales responsible for thermal degradation and for the glass transition are decoupled by employing ultrafast heating rates of tens of thousands K s. The investigated PIMs were chosen considering the chain rigidity. The estimated glass transition temperatures follow the order of the rigidity of the backbone of the PIMs.

摘要

高性能固有微孔聚合物（PIMs）已发展成为在气体分离和其他能源相关领域具有广泛应用范围的材料。含PIMs器件的进一步优化和长期性能需要了解结构-性能关系，包括物理老化。在这种情况下，玻璃化转变起着核心作用，但使用传统热分析时，PIMs在热分解之前通常无法检测到玻璃化转变。快速扫描量热法为一系列PIMs的玻璃化转变提供了证据，因为通过采用数万K s的超快加热速率，热降解和玻璃化转变所涉及的时间尺度得以解耦。考虑到链刚性选择了所研究的PIMs。估计的玻璃化转变温度遵循PIMs主链刚性的顺序。

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通过快速扫描量热法探究主链刚性对固有微孔聚合物玻璃化转变的影响。

Effect of Backbone Rigidity on the Glass Transition of Polymers of Intrinsic Microporosity Probed by Fast Scanning Calorimetry.

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