Add to ORKGThe combination of some three-atom bridges with paramagnetic 3d transition metal ions results in the systematic isolation of molecular magnetic materials, ranging from single-molecule and single-chain magnets to layered weak ferromagnets and three-dimensional porous magnets. The design strategy and role of secondary components, such as co-ligands, templates and other mixed short ligands are discussed.SCI(E)PubMed0REVIEW3281-9
Historically most materials in magnetic applications are based on inorganic materials. Recently, how...
Lanthanides ions allows for the design of remarkable magnetic compounds with unique magnetic propert...
The field of molecule-based magnets is a relatively new branch of chemistry, which involves the desi...
The combination of some three-atom bridges with paramagnetic 3d transition metal ions results in the...
The combination of some three-atom bridges with paramagnetic 3d transition metal ions results in the...
Tailoring the specific magnetic properties of any material relies on the topological control of the ...
Glaser T. Rational design of single-molecule magnets: a supramolecular approach. Chemical Communicat...
The field of molecular magnetism has rapidly expanded since the discovery of single-molecule magnets...
Magnetic materials in which the fundamental building block is molecular have attracted a great deal ...
In this thesis the synthetic build-up of discrete polynuclear coordination compounds utilising 3d tr...
Our research goals are focused on the preparation of novel molecule-based materials that possess spe...
Magnetic molecules known as molecular nanomagnets (MNMs) may be the key to ultra-high density data s...
Glaser T, Heidemeier M, Weyhermueller T, Hoffmann R-D, Rupp H, Mueller P. Property-oriented rational...
Using molecular building blocks to self-assemble lattices supporting long-range magnetic order is cu...
Most materials in magnetic applications are based on inorganic materials. Recently, however, organic...
Historically most materials in magnetic applications are based on inorganic materials. Recently, how...
Lanthanides ions allows for the design of remarkable magnetic compounds with unique magnetic propert...
The field of molecule-based magnets is a relatively new branch of chemistry, which involves the desi...
The combination of some three-atom bridges with paramagnetic 3d transition metal ions results in the...
The combination of some three-atom bridges with paramagnetic 3d transition metal ions results in the...
Tailoring the specific magnetic properties of any material relies on the topological control of the ...
Glaser T. Rational design of single-molecule magnets: a supramolecular approach. Chemical Communicat...
The field of molecular magnetism has rapidly expanded since the discovery of single-molecule magnets...
Magnetic materials in which the fundamental building block is molecular have attracted a great deal ...
In this thesis the synthetic build-up of discrete polynuclear coordination compounds utilising 3d tr...
Our research goals are focused on the preparation of novel molecule-based materials that possess spe...
Magnetic molecules known as molecular nanomagnets (MNMs) may be the key to ultra-high density data s...
Glaser T, Heidemeier M, Weyhermueller T, Hoffmann R-D, Rupp H, Mueller P. Property-oriented rational...
Using molecular building blocks to self-assemble lattices supporting long-range magnetic order is cu...
Most materials in magnetic applications are based on inorganic materials. Recently, however, organic...
Historically most materials in magnetic applications are based on inorganic materials. Recently, how...
Lanthanides ions allows for the design of remarkable magnetic compounds with unique magnetic propert...
The field of molecule-based magnets is a relatively new branch of chemistry, which involves the desi...