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Dalton Trans


Title:Flexible amorphous metal-organic frameworks with pi Lewis acidic pore surface for selective adsorptive separations
Author(s):Fonseca J; Choi S;
Address:"Nanomaterial Laboratory for Catalysis and Advanced Separations, Department of Chemical Engineering, Northeastern University, 313 Snell Engineering Center, 360 Huntington Avenue, Boston, Massachusetts 02115-5000, USA. fonsecagarcia.j@northeastern.edu s.choi@northeastern.edu"
Journal Title:Dalton Trans
Year:2021
Volume:50
Issue:9
Page Number:3145 - 3154
DOI: 10.1039/d1dt00079a
ISSN/ISBN:1477-9234 (Electronic) 1477-9226 (Linking)
Abstract:"Selective separation of light hydrocarbons (LHs) and adsorption of volatile organic compounds (VOCs) remain expensive and complex scientific challenges in the petrochemical industry. Shape-selective adsorbent materials can cost-effectively face these demands. Two new porous, dynamic and amorphous metal-organic frameworks (MOFs), NEU-3 [= Zn(PMDA)(Py)2] and NEU-4 [= Fe(PMDA)(Py)2] are disclosed. These MOFs along with NEU-1c [= Zn(BPDI)(Py)2] and NEU-2 [= Fe(BPDI)(Py)2] display an electron-deficient pore surface due to predesigned pi-electron-deficient ligands. They are unique smart guest-responsive materials owing to their pi Lewis acidic pore surface and presumably their framework flexibility. A variety of effective adsorptions and adsorptive separations is achieved by using beds of NEU-1c, NEU-2, NEU-3 and NEU-4. Promising for further investigations into the petrochemical industry, NEU-4 shows ultrahigh benzene adsorption, recognition capability, selectivity for benzene over its analogues, and high stability and regenerability"
Keywords:
Notes:"PubMed-not-MEDLINEFonseca, Javier Choi, Sunho eng England 2021/02/06 Dalton Trans. 2021 Mar 9; 50(9):3145-3154. doi: 10.1039/d1dt00079a"

 
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