Gd complexes have been studied as magnetic coolants due to their large magneto-caloric effect. In this work we present a Gd 2D metal–organic framework (MOF) of formula [Gd(MeCOO)(PhCOO)2]. We characterize the magnetic properties of 1, showing that it displays slow relaxation of the magnetization by ac susceptibility, and single-ion magnetic anisotropy using high-field EPR. By heat capacity and magnetization vs. field at various temperatures we determine the magnetic entropy change of compound 1. We then grow 1 on functionalized silicon, and show that the surface-deposited 2D MOF 1Si can be used as an on-surface magnetic cryogenic coolant.
On-surface magnetocaloric effect for a van der Waals Gd(iii) 2D MOF grown on Si / Kumar, Subodh; Riera, Guillem Gabarró; Arauzo, Ana; Hrubý, Jakub; Hill, Stephen; Bogani, Lapo; Rubio-Zuazo, Juan; Jover, Jesús; Bartolomé, Elena; Sañudo, E. Carolina. - In: JOURNAL OF MATERIALS CHEMISTRY. A. - ISSN 2050-7488. - STAMPA. - 12:(2024), pp. 6269-6279. [10.1039/d3ta06648g]
On-surface magnetocaloric effect for a van der Waals Gd(iii) 2D MOF grown on Si
Hill, Stephen;Bogani, Lapo;
2024
Abstract
Gd complexes have been studied as magnetic coolants due to their large magneto-caloric effect. In this work we present a Gd 2D metal–organic framework (MOF) of formula [Gd(MeCOO)(PhCOO)2]. We characterize the magnetic properties of 1, showing that it displays slow relaxation of the magnetization by ac susceptibility, and single-ion magnetic anisotropy using high-field EPR. By heat capacity and magnetization vs. field at various temperatures we determine the magnetic entropy change of compound 1. We then grow 1 on functionalized silicon, and show that the surface-deposited 2D MOF 1Si can be used as an on-surface magnetic cryogenic coolant.
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