Post‐Synthetic Mannich Chemistry on Metal‐Organic Frameworks: System‐Specific Reactivity and Functionality‐Triggered Dissolution

Post‐Synthetic Mannich Chemistry on Metal‐Organic Frameworks: System‐Specific Reactivity and Functionality‐Triggered Dissolution

The Mannich reaction of the zirconium MOF [Zr6O4(OH)4(bdc‐NH2)6] (UiO‐66‐NH2, bdc‐NH2=2‐amino‐1,4‐benzenedicarboxylate) with paraformaldehyde and pyrazole, imidazole or 2‐mercaptoimidazole led to post‐synthetic modification (PSM) through C−N bond formation. The reaction with imidazole (Him) goes to...

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Published in:Chemistry : a European journal Vol. 24; no. 43; pp. 11094 - 11102
Main Authors: Amer Hamzah, Harina, Gee, William J., Raithby, Paul R., Teat, Simon J., Mahon, Mary F., Burrows, Andrew D.
Format: Journal Article
Language:English
Published: Germany Wiley Subscription Services, Inc 01-08-2018
ChemPubSoc Europe
John Wiley and Sons Inc
Subjects:
Carbon dioxide
Chemistry
Dissolution
Imidazole
INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY
Mannich reactions
Mercury
Mercury (metal)
Mercury compounds
Metal-organic frameworks
Nitrogen
Organic chemistry
post-synthetic modification
Pyrazole
Recrystallization
Zinc
Zinc coordination
Zirconium
post-synthetic modification
Mannich reactions
zirconium
mercury
metal-organic frameworks
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Summary:The Mannich reaction of the zirconium MOF [Zr6O4(OH)4(bdc‐NH2)6] (UiO‐66‐NH2, bdc‐NH2=2‐amino‐1,4‐benzenedicarboxylate) with paraformaldehyde and pyrazole, imidazole or 2‐mercaptoimidazole led to post‐synthetic modification (PSM) through C−N bond formation. The reaction with imidazole (Him) goes to completion whereas those with pyrazole (Hpyz) and 2‐mercaptoimidazole (HimSH) give up to 41 and 36 % conversion, respectively. The BET surface areas for the Mannich products are reduced from that of UiO‐66‐NH2, but the compounds show enhanced selectivity for adsorption of CO2 over N2 at 273 K. The thiol‐containing MOFs adsorb mercury(II) ions from aqueous solution, removing up to 99 %. The Mannich reaction with pyrazole succeeds on [Zn4O(bdc‐NH2)3] (IRMOF‐3), but a similar reaction on [Zn2(bdc‐NH2)2(dabco)] (dabco=1,4‐diazabicyclo[2.2.2]octane) gave [Zn3(bdc‐NH2)1.32(bdc‐NHCH2pyz)1.68(dabco)]⋅2 C7H8 5, whereas the reaction with imidazole gave the expected PSM product. Compound 5 forms via a dissolution–recrystallisation process that is triggered by the “free” pyrazolate nitrogen atom competing with dabco for coordination to the zinc(II) centre. In contrast, the “free” nitrogen atom on the imidazolate is too far away to compete in this way. Mannich reactions on [In(OH)(bdc‐NH2)] (MIL‐68(In)‐NH2) stop after the first step, and the product was identified as [In(OH)(bdc‐NH2)0.41(bdc‐NHCH2OCH3)0.30(bdc‐N=CH2)0.29], with addition of the heterocycle prevented by steric interactions. Post‐synthetic Mannich reactions have been carried out on amino‐functionalised MOFs, with competition between post‐synthetic modification and dissolution‐recrystallisation processes observed.
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AC02-05CH11231; EP/K004956/1
USDOE Office of Science (SC), Basic Energy Sciences (BES). Scientific User Facilities Division
Engineering and Physical Sciences Research Council (EPSRC)
ISSN:0947-6539
1521-3765
DOI:10.1002/chem.201801419