Promotion of phosphoester hydrolysis by MoO2Cl2L (L bipyridine derivatives, H2O, no ligand), MoO2(CH3)(2)L (L bipyridine derivatives) and related inorganice-organic hybrids in aqueous media
authors Gomes, AC; Pillinger, M; Nunes, P; Goncalves, IS; Abrantes, M
nationality International
journal JOURNAL OF ORGANOMETALLIC CHEMISTRY
author keywords Molybdenum; Oxides; Bipyridine ligands; Phosphoester hydrolysis
keywords CYCLOOCTENE EPOXIDATION; ORGANOMETALLIC COMPLEX; CATALYTIC APPLICATIONS; BOND-CLEAVAGE; MOLYBDATE; POLYOXOMOLYBDATE; PERFORMANCE; PRECURSORS; PHOSPHATE; OLEFINS
abstract The compounds MoO2Cl2L (L = 2,2'-bipyridine (bipy) (1); 4,4'-di-tert-butyl-2,2'-bipyridine (di-Bu-t-bipy) (2)), [MoO2Cl2(H2O)(2)]center dot(diglyme)(2) (3), MoO2Cl2 (4), MoO2(CH3)(2)L (L bipy (5); di-Bu-t-bipy (6)), [MoO3(bipy)] n (7), {[MoO3(bipy)][MoO3(H2O)]} n (8), [Mo8O22(OH)(4)(di-Bu-t-bipy)(4)] (9) and MoO3 (10) were tested as phosphoester bond hydrolysis promoters in aqueous media. Sodium para-nitrophenylphosphate (pNPP) was used as a model substrate for the phosphoester bond hydrolysis reaction, which was performed at 55 degrees C, using D2O as solvent and 100 or 10 mol% of the chosen promoter. The progression of all the reactions was monitored by H-1 NMR spectroscopy. All studied systems promote phosphoester bond hydrolysis. The best performance was obtained with MoO2Cl2L compounds (1-4) and with the inorganiceorganic hybrid {[MoO3(bipy)][MoO3(H2O)]}(n) (8). The studied compounds originate either homogeneous or solid/liquid biphasic systems. For the biphasic systems (1, 2, 5-9), the solid phase was recovered at the end of the reaction and characterized by FT-IR spectroscopy. (C) 2014 Elsevier B. V. All rights reserved.
publisher ELSEVIER SCIENCE SA
issn 0022-328X
year published 2014
volume 760
beginning page 42
ending page 47
digital object identifier (doi) 10.1016/j.jorganchem.2013.12.029
web of science category Chemistry, Inorganic & Nuclear; Chemistry, Organic
subject category Chemistry
unique article identifier WOS:000334295800007
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