\ua9 2020 by the authors. Licensee MDPI, Basel, Switzerland.The cornerstone of molecular magnetism is a detailed understanding of the relationship between structure and magnetic behaviour, i.e., the development of magneto-structural correlations. Traditionally, the synthetic chemist approaches this challenge by making multiple compounds that share a similar magnetic core but differ in peripheral ligation. Changes in the ligand framework induce changes in the bond angles and distances around the metal ions, which are manifested in changes to magnetic susceptibility and magnetisation data. This approach requires the synthesis of a series of different ligands and assumes that the chemical/electronic nature of the ligands and their coordination...
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The metal-organic charge transfer compound NiTCNQ2 has been subjected to pressure where both magneti...
We report on the studies of the influence of hydrostatic pressure (up to 1.2 GPa) on dynamic electro...
The symmetry of single-molecule magnets dictates their spin quantum dynamics, influencing how such s...
The effect of pressure on a number of magnetically interesting compounds such as single-molecule mag...
This research deals with the investigation of the correlation between the structures of molecules an...
Materials that demonstrate long-range magnetic order are synonymous with information storage and the...
We present the results of high-field magnetization and muon-spin relaxation measurements on the coor...
The application of pressures of up to about 10 GPa may induce significant geometric, configurational...
Due to their low energy scales, flexible architectures, and unique exchange pathways, molecule-based...
Folding under pressure: High-pressure crystallography of an Mn6 single-molecule magnet reveals drama...
Molecular magnets show many properties not met in conventional metallic magnetic materials, i.e. low...
Understanding and controlling magnetic anisotropy at the level of a single metal ion is vital if the...
The first combined high pressure single-crystal X-ray diffraction and high pressure magnetism study ...
A pressure-induced linkage isomerization of the cyanide anion has been observed in single crystals o...
The interplay between charge, structure, and magnetism gives rise to rich phase diagrams in complex ...
The metal-organic charge transfer compound NiTCNQ2 has been subjected to pressure where both magneti...
We report on the studies of the influence of hydrostatic pressure (up to 1.2 GPa) on dynamic electro...
The symmetry of single-molecule magnets dictates their spin quantum dynamics, influencing how such s...
The effect of pressure on a number of magnetically interesting compounds such as single-molecule mag...
This research deals with the investigation of the correlation between the structures of molecules an...
Materials that demonstrate long-range magnetic order are synonymous with information storage and the...
We present the results of high-field magnetization and muon-spin relaxation measurements on the coor...
The application of pressures of up to about 10 GPa may induce significant geometric, configurational...
Due to their low energy scales, flexible architectures, and unique exchange pathways, molecule-based...
Folding under pressure: High-pressure crystallography of an Mn6 single-molecule magnet reveals drama...
Molecular magnets show many properties not met in conventional metallic magnetic materials, i.e. low...
Understanding and controlling magnetic anisotropy at the level of a single metal ion is vital if the...
The first combined high pressure single-crystal X-ray diffraction and high pressure magnetism study ...
A pressure-induced linkage isomerization of the cyanide anion has been observed in single crystals o...
The interplay between charge, structure, and magnetism gives rise to rich phase diagrams in complex ...
The metal-organic charge transfer compound NiTCNQ2 has been subjected to pressure where both magneti...
We report on the studies of the influence of hydrostatic pressure (up to 1.2 GPa) on dynamic electro...
The symmetry of single-molecule magnets dictates their spin quantum dynamics, influencing how such s...
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