Universal, controllable, large-scale and facile fabrication of nano-MOFs tightly-bonded on flexible substrate

[Display omitted] •The fabrication method of nanoMOFs@CMFP is controllable, universal and large-scale.•nanoMOFs are uniformly and tightly bonded on flexible substrate.•Retention of ZIF-67 on the ZIF-67@CMFP is up to 93.87% after rubbing of 200 cycles.•Flexible nanoMOFs@CMFP of low toxicity has antib...

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Bibliographic Details
Published in:Chemical engineering journal (Lausanne, Switzerland : 1996) Switzerland : 1996), 2020-09, Vol.395, p.125181, Article 125181
Main Authors: Huang, Guohuan, Xu, Danxia, Qin, Zhimei, Liang, Qun, Xu, Chuanhui, Lin, Baofeng
Format: Article
Language:English
Subjects:
Controlled nucleation and growth
Flexible substrate
Large-scale
Nanoscale metal-organic frameworks
Tightly-bonded
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Summary:[Display omitted] •The fabrication method of nanoMOFs@CMFP is controllable, universal and large-scale.•nanoMOFs are uniformly and tightly bonded on flexible substrate.•Retention of ZIF-67 on the ZIF-67@CMFP is up to 93.87% after rubbing of 200 cycles.•Flexible nanoMOFs@CMFP of low toxicity has antibacterial, wound healing performance. Nanoscale metal-organic frameworks (nanoMOFs) are promising materials for many applications. However, for actual applications, it is a big challenge to change the brittle MOFs into flexible materials suitable for universal, large-scale fabrication. Herein, we develop a facile, universal, controllable, large-scale strategy to fabricate the tightly-bonded and flexible nanoMOFs-based composites by flexibly controlling the nucleation and growth of nanoMOFs. Based on this universal strategy, a series of tightly-bonded and flexible nanoMOFs@carboxymethylated filter paper (nanoMOFs@CMFP) are successfully prepared under mild conditions. Specifically, the retention of ZIF-67 on the ZIF-67@CMFP is still up to 93.87% after the mechanical deformation and abrasion (200 cycles), which confirms the flexibility and ultra-stability of nanoMOFs@CMFP. Moreover, besides the universal applicability, this method also can be used for large-scale synthesis of flexible nanoMOFs@CMFP. Furthermore, the excellent performance of low toxicity, antibacterial and wound healing confirms that the flexible composites have practical application value. Therefore, this study is expected to solve the problem of the flexible use of nanoMOFs in the practical application.
ISSN:1385-8947
1873-3212
DOI:10.1016/j.cej.2020.125181