Researchers Unveil Key Factors That Determine Porous Polymer Properties
A computational framework has been developed to decipher the properties of porous microstructures.
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Determining the relationship between microstructure features and their properties is crucial for improving material performance and advancing the design of next-generation structural and functional materials. However, this task is inherently challenging.
To address the challenges, LLNL scientists developed an efficient and comprehensive computational framework to decipher implications of porous microstructures and their properties. The research appears in the journal ACS Applied Materials & Interfaces.
“We have developed an integrated computational framework which incorporates physics-based microstructure modeling, microstructure feature extraction, microstructure-aware effective property evaluation and machine-learning analysis tools,” said Longsheng Feng, LLNL scientist and lead author of the paper.
The team applied the framework to polymer-based porous materials as a representative model system and demonstrated its capability to explore how polymerization dynamics influence various general and local microstructure features like domain size and pore size distribution, and how these features impact transport properties.
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Subscribe for FREEThis approach offers a novel framework for assessing microstructure−property relationships in polymer-based porous materials, paving a way for the development of advanced materials.
“Understanding these relationships can guide the processing procedures to tailor specific microstructures to achieve desired properties of polymeric porous materials for various applications, such as membranes,” said Juergen Biener, LLNL scientist and co-author of the paper.
Reference: Feng L, Huang S, Heo TW, Biener J. Integrated framework to model microstructure evolution and decipher the microstructure–property relationship in polymeric porous materials. ACS Appl Mater Interfaces. 2024;16(29):38442-38457. doi: 10.1021/acsami.4c03011
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