Journal
INORGANIC CHEMISTRY
Volume 54, Issue 5, Pages 2185-2192Publisher
AMER CHEMICAL SOC
DOI: 10.1021/ic502639v
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Funding
- Army Research Office [W911NF-13-1-0229]
- Stanford Global Climate and Energy Project
- National Science Foundation MRSEC program [DMR-1121262]
- NSF-NSEC program
- NSF-MRSEC program
- Keck Foundation
- State of Illinois
- Northwestern University
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Solvent-assisted ligand incorporation (SALT) is useful for functionalizing the channels of metal-organic framework (MOP) materials, such as NU-1000 that offer substitutionally labile zirconium(IV) coordination sites for nonbridging ligands. Each of the 30 or so, previous examples. relied upon coordination of a. carboxylate ligand to achieve. incorporation. Here we show that, with appropriate attention to ligand/node stoichiometry, SALI can also be achieved with phosphonate-terminated ligands. Consistent with stronger M(IV) coordination of phosphonates versus carboxylates, this change extends the pH range for retention of incorporated ligands. The, difference in coordination strength can be 1 exploited to achieve stepwise incorporation of pairs of ligands specifically, phosphonates species followed by carboxylate species without danger of displacement of the first ligand type by the second. Diffuse reflectance infrared Fourier-transform spectroscopy suggests that the phosphonate ligands are connected to the MOP node as RPO2(OH)(-) species in a moiety that leaves a base-accessible -OH moiety on each bound phosphonate.
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