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A new method to characterise the evolution of surface sites during metal-supported catalyst preparation has been developed, which exploits NMR relaxation times and their sensitivity to paramagnetic ions. This method opens up new possibilities in terms of monitoring surface species during catalyst preparation.

D'Agostino C, Bräuer P (2019). Exploiting enhanced paramagnetic NMR relaxation for monitoring catalyst preparation using T1–T2 NMR correlation maps. REACTION CHEMISTRY & ENGINEERING, 4, 268-272 [10.1039/C8RE00173A].

Exploiting enhanced paramagnetic NMR relaxation for monitoring catalyst preparation using T1–T2 NMR correlation maps

D'Agostino C
Primo
;
2019

Abstract

A new method to characterise the evolution of surface sites during metal-supported catalyst preparation has been developed, which exploits NMR relaxation times and their sensitivity to paramagnetic ions. This method opens up new possibilities in terms of monitoring surface species during catalyst preparation.
2019
D'Agostino C, Bräuer P (2019). Exploiting enhanced paramagnetic NMR relaxation for monitoring catalyst preparation using T1–T2 NMR correlation maps. REACTION CHEMISTRY & ENGINEERING, 4, 268-272 [10.1039/C8RE00173A].
D'Agostino C; Bräuer P
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/890734
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