Base catalytic activity of alkaline earth MOFs: a (micro) spectroscopic study of active site formation by the controlled transformation of structural anions: A (micro)spectroscopic study of active site formation by the controlled transformation of structural anions

Matthias Vandichel, P. Valvekens, D. Jonckheere, T. De Baerdemaeker, A. V. Kubarev, K. Hemelsoet, M. Waroquier, V. Van Speybroeck, E. Smolders, D. Depla, M. B.J. Roeffaers, D. De Vos

Research output: Contribution to journalArticle

Abstract

A new method has been developed for generating highly dispersed base sites on metal-organic framework (MOF) lattices. The base catalytic activity of two alkaline earth MOFs, M2(BTC)(NO3)(DMF) (M = Ba or Sr, H3BTC = 1,3,5-benzenetricarboxylic acid, DMF = N,N-dimethylformamide) was studied as a function of their activation procedures. The catalytic activity in Knoevenagel condensation and Michael addition reactions was found to increase strongly with activation temperature. Physicochemical characterization using FTIR, 13C CP MAS NMR, PXRD, XPS, TGA-MS, SEM, EPR, N2physisorption and nitrate content analysis shows that during activation, up to 85% of the nitrate anions are selectively removed from the structure and replaced with other charge compensating anions such as O2-. The defect sites generated via this activation act as new strong basic sites within the catalyst structure. A fluorescence microscopic visualization of the activity convincingly proves that it is exclusively associated with the hexagonal crystals, and that reaction proceeds inside the crystal's interior. Theoretical analysis of the Ba-material shows that the basicity of the proposed Ba2+-O2--Ba2+motifs is close to that of the edge sites in BaO.

Original languageEnglish (Ireland)
Pages (from-to)4517-4524
Number of pages8
JournalChemical Science
Volume5
Issue number11
DOIs
Publication statusPublished - 1 Nov 2014

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