期刊
ACS APPLIED MATERIALS & INTERFACES
卷 11, 期 20, 页码 18770-18781出版社
AMER CHEMICAL SOC
DOI: 10.1021/acsami.9b04602
关键词
polymers of intrinsic microporosity; pyrolysis; carbon molecular sieves; gas separation membranes; molecular sieving; ellipsometry
资金
- King Abdullah University of Science and Technology (KAUST)
- IP Baseline Funding (KAUST) [BAS/1/1323-01-01]
- Ministerium fur Innovation, Wissenschaft und Forschung des Landes Nordrhein-Westfalen
- Regierende Burgermeister von Berlin-Senatskanzlei Wissenschaft und Forschung
- Bundesministerium fur Bildung und Forschung
- European Union through the EFRE program (ProFIT grant) [10160255, 10160265, 10160256]
Ultra-thin composite carbon molecular sieve (CMS) membranes were fabricated on well-defined inorganic alumina substrates using a polymer of intrinsic microporosity (PIM) as a precursor. Details of the pyrolysis-related structural development were elucidated using focused-beam, interference-enhanced spectroscopic ellipsometry (both in the UV-vis and IR range), which allowed accurate determination of the film thickness, optical properties as well as following the chemical transformations. The pyrolysis-induced collapse of thin and bulk PIM-derived CMS membranes was compared with CMS made from a well-known non-PIM precursor 6FDA-DABA. Significant differences between the PIM and non-PIM precursors were discovered and explained by a much larger possible volume contraction in the PIM. In spite of the differences, surprisingly, the gas separation properties did not fundamentally differ. The high-temperature collapse of the initially amorphous and isotropic precursor structure was accompanied by a significant molecular orientation within the formed turbostratic carbon network guided by the laterally constraining presence of the substrate. This manifested itself in the development of uniaxial optical anisotropy, which was shown to correlate with increases in gas separation selectivity for multiple technologically important gas pairs. Reduction of CMS skin thickness significantly below similar to 1 mu m induced large losses in permeability coefficients with only small to moderate effects on selectivity. Remarkably, skin thickness reduction and physical aging seemed to superimpose onto the same trend, which explains and strengthens some of the earlier fundamental insights.
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