Please use this identifier to cite or link to this item: https://doi.org/10.1021/acsmaterialslett.9b00069
Title: 3D-Printing of Pure Metal-Organic Framework Monoliths
Authors: Lim, GJH
Wu, Y
Shah, BB
Koh, JJ
Liu, CK
Zhao Dan 
Cheetham, AK
WANG,JOHN 
DING JUN 
Issue Date: 1-Jul-2019
Publisher: American Chemical Society (ACS)
Citation: Lim, GJH, Wu, Y, Shah, BB, Koh, JJ, Liu, CK, Zhao Dan, Cheetham, AK, WANG,JOHN, DING JUN (2019-07-01). 3D-Printing of Pure Metal-Organic Framework Monoliths. ACS Materials Letters 1 (1) : 147-153. ScholarBank@NUS Repository. https://doi.org/10.1021/acsmaterialslett.9b00069
Abstract: © 2019 American Chemical Society. Metal-organic frameworks (MOFs) are usually synthesized in powder form. For many practical applications, MOFs need to be shaped into monoliths that can be easily handled. However, conventional shaping methods, such as pelletization, often result in a decrease in functionality. Recently, MOF-containing monoliths have been made using direct ink writing (DIW; extrusion 3D printing), but to date, high additive loadings have been required. In this work, we demonstrate that colloidal gels containing only ethanol and Cu3(BTC)2 (BTC = 1,3,5-benzenetricarboxylate) (HKUST-1) nanoparticles can be used directly as an ink for the DIW of pure densely packed and self-standing MOF monoliths. The MOF gel shows ideal rheological properties for 3D extrusion-based printing, suggesting this method may be generalized to other MOF families that form gels. Importantly, the accessible porosity and surface area of the MOF is retained well after shaping. The 3D printed HKUST-1 monolith displays an exceptionally high BET surface area of 1134 m2/g, and a high mesopore volume. We demonstrate that for methane storage, a classical application of HKUST-1, the 3D printed monolith is comparable or superior to monoliths formed by other shaping methods.
Source Title: ACS Materials Letters
URI: https://scholarbank.nus.edu.sg/handle/10635/169575
ISSN: 2639-4979
DOI: 10.1021/acsmaterialslett.9b00069
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