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Hydrogen-Bonding Linkers Yield a Large-Pore, Non-Catenated, Metal-Organic Framework with pcu Topology
- Source :
- Molecules, Molecules, Vol 25, Iss 3, p 697 (2020)
- Publication Year :
- 2019
-
Abstract
- Pillared paddle-wheel-based metal-organic framework (MOF) materials are an attractive target as they offer a reliable method for constructing well-defined, multifunctional materials. A drawback of these materials, which has limited their application, is their tendency to form catenated frameworks with little accessible volume. To eliminate this disadvantage, it is necessary to investigate strategies for constructing non-catenated pillared paddle-wheel MOFs. Hydrogen-bonding substituents on linkers have been postulated to prevent catenation in certain frameworks and, in this work, we present a new MOF to further bolster this theory. Using 2,2′-diamino-[1,1′-biphenyl]-4,4′-dicarboxylic acid, BPDC-(NH2)2, linkers and dipyridyl glycol, DPG, pillars, we assembled a MOF with pcu topology. The new material is non-catenated, exhibiting large accessible pores and low density. To the best of our knowledge, this material constitutes the pcu framework with the largest pore volume and lowest density. We attribute the lack of catenation to the presence of H-bonding substituents on both linkers.
- Subjects :
- Materials science
Surface Properties
Pharmaceutical Science
hydrogen-bonding
mixed-ligand
010402 general chemistry
Topology
01 natural sciences
Analytical Chemistry
lcsh:QD241-441
Catenation
Paddle wheel
lcsh:Organic chemistry
Drug Discovery
Low density
non-catenated
large-pore
Physical and Theoretical Chemistry
pillared
Topology (chemistry)
Metal-Organic Frameworks
Molecular Structure
010405 organic chemistry
Hydrogen bond
Communication
Organic Chemistry
Hydrogen Bonding
metal-organic framework
0104 chemical sciences
Large pore
Chemistry (miscellaneous)
Yield (chemistry)
Molecular Medicine
Metal-organic framework
Adsorption
paddle-wheel
Porosity
Subjects
Details
- ISSN :
- 14203049
- Volume :
- 25
- Issue :
- 3
- Database :
- OpenAIRE
- Journal :
- Molecules (Basel, Switzerland)
- Accession number :
- edsair.doi.dedup.....b720090c5dad1904e6fc03ed4b1cab70