Fabrication of shrinkage-free poly(ether ether ketone) nanofibrous mat and its use for flexible and thermally-recycled MOF composites

[Display omitted] •PEEK nanofibrous mat is prepared via a three-step procedure.•The PEEK nanofibrous mat maintains excellent properties and displays a uniform distribution of diameter.•The PEEK mat shows high shape stability against heating and only displays ∼3 % shrinkage occurs at 370 °C.•Free-sta...

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Bibliographic Details
Published in:Materials today communications 2020-06, Vol.23, p.100862, Article 100862
Main Authors: Ye, Hai-Mu, Zhu, Wen-Yao, Liu, Ping, Wei, Xue-Wei, Li, Hua, Cai, Lihai, Meng, Xiaoyu, Huang, Guoyong, Zhou, Qiong
Format: Article
Language:English
Subjects:
Metal-Organic frameworks
PEEK nanofibers
Shape stability
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Summary:[Display omitted] •PEEK nanofibrous mat is prepared via a three-step procedure.•The PEEK nanofibrous mat maintains excellent properties and displays a uniform distribution of diameter.•The PEEK mat shows high shape stability against heating and only displays ∼3 % shrinkage occurs at 370 °C.•Free-standing composite mat between PEEK nanofibers and MIL-53(Al) is facilely prepared.•The composite mat can be easily regenerated by simple thermal treatment after absorbing dye contaminant. Electrospinning has provided a simple and useful technique for producing nanofibrous structures that emerge with versatile properties and functions. However, the shape instability (i.e., shrinkage) is always a common falling of conventionally-electrospun fibers when applying in harsh conditions. In this work, fabrication of shrinkage-free nanofibrous mats of poly(ether ether ketone) (PEEK) that has excellent properties was successfully realized through a delicate strategy consisted of three steps of coaxial electrospinning, annealing at low temperature and removal of the outer sheath. PEEK was first nanosized within polyester sheath in solution state, then deep phase separation progressed to form dense nanofibers with high crystallinity at low temperature. After removal of sheath, the nanofibrous PEEK mats displayed good mechanical properties and excellent shape stability against heating. Consequently, the PEEK mats were used as the substrate for depositing MIL-53(Al), a kind of metal-organic frameworks (MOFs), at elevated temperature to prepare free-standing and flexible composite mats. The obtained composite mats revealed considerable affinity and high load of MIL-53(Al) with PEEK nanofibers. PEEK/MIL-53(Al) composite mats were used as absorbent and showed almost equally effective absorption capacity of methylene blue (MB) from aqueous solution as powdered MOF, while the composite mats were easily regenerated through thermal treatment.
ISSN:2352-4928
2352-4928
DOI:10.1016/j.mtcomm.2019.100862