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In contrast to MIL-53(Al), IM-19 (MIL-53 (Ga)) is extremely active and selective for the alkylation of aromatics. The reaction proceeds through the protonation of the aromatic substrate. CO adsorption and molecular modeling show that the bridging μ2-OH of IM-19 exhibits stronger Brønsted-type acidity than does MIL-53(Al).

Investigation of acid centers in MIL-53(Al, Ga) for Brønsted-type catalysis: in situ FTIR and ab initio molecular modeling.

SEYYEDI, BEHNAM;BONINO, Francesca Carla;BORDIGA, Silvia;
2010-01-01

Abstract

In contrast to MIL-53(Al), IM-19 (MIL-53 (Ga)) is extremely active and selective for the alkylation of aromatics. The reaction proceeds through the protonation of the aromatic substrate. CO adsorption and molecular modeling show that the bridging μ2-OH of IM-19 exhibits stronger Brønsted-type acidity than does MIL-53(Al).
2010
CHEMCATCHEM
2
10
1235
1238
http://onlinelibrary.wiley.com/doi/10.1002/cctc.201000055/abstract
adsorption; alkylation; aromatics; metal organic frameworks; molecular modeling
U. Ravon; G. Chaplais; C. Chizallet; B. Seyyedi; F. Bonino; S. Bordiga; N. Bats; D. Farrusseng
03A-Articolo su Rivista
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2318/80011
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