R.A. de Groot scite author profile

The efficient coupling between lattice degrees of freedom and spin degrees of freedom in magnetic materials can be used for refrigeration and energy conversion. This coupling is enhanced in materials exhibiting the giant magnetocaloric effect. First principle electronic structure calculations on hexagonal MnFe(P, Si) reveal a new form of magnetism: the coexistence of strong and weak magnetism in alternate atomic layers. The weak magnetism of Fe layers (disappearance of local magnetic moments at the Curie temperature) is responsible for a strong coupling with the crystal lattice while the strong magnetism in adjacent Mn-layers ensures Curie temperatures high enough to enable operation at and above room temperature. Varying the composition on these magnetic sublattices gives a handle to tune the working temperature and to achieve a strong reduction of the undesired thermal hysteresis. In this way we design novel materials based on abundantly available elements with properties matched to the requirements of an efficient refrigeration or energy-conversion cycle.Comment: 6 pages, 6 figure

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Modeling the Polymorphism of Pentacene

Mattheus

et al. 2003

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Thin films of pentacene are known to crystallize in at least four different polymorphs. All polymorphs are layered structures that are characterized by their interlayer spacing d(001). We develop a model that rationalizes the size of the interlayer spacing in terms of intralayer shifts of the pentacene molecules along their long molecular axes. It explains the wide variety of interlayer spacings, without distorting the herringbone pattern that is characteristic of many acenes. Using two simple theoretical models, we attempt to relate the intralayer shifts with the dominant, although weak, interatomic interactions (van der Waals, weak electrostatic, and covalent). For two polymorphs, a consistent picture is found. A full understanding of the other two, substrate-induced, polymorphs probably requires consideration of interlayer interactions.

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R.A. de Groot

New Class of Materials: Half-Metallic Ferromagnets

Electronic structure ofMoSe2,MoS2, and
Coehoorn
¹
,
Haas
²
,
Dijkstra
³

et al. 1987
Phys. Rev. B

Half-Metallic Antiferromagnets

Mixed Magnetism for Refrigeration and Energy Conversion

Modeling the Polymorphism of Pentacene

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About

R.A. de Groot

New Class of Materials: Half-Metallic Ferromagnets

Electronic structure ofMoSe2,MoS2, andCoehoorn1, Haas2, Dijkstra3 et al. 1987Phys. Rev. B

Half-Metallic Antiferromagnets

Mixed Magnetism for Refrigeration and Energy Conversion

Modeling the Polymorphism of Pentacene

Contact Info

Product

Resources

About

Electronic structure ofMoSe2,MoS2, and
Coehoorn
¹
,
Haas
²
,
Dijkstra
³

et al. 1987
Phys. Rev. B