Add to ORKGWe investigated magnetoelastic coupling through the field-driven transition to the fully polarized magnetic state in quasi-two-dimensional [Cu(HF2)(pyz)(2)]BF4 by magnetoinfrared spectroscopy. This transition modifies out-of-plane ring distortion and bending vibrational modes of the pyrazine ligand. The extent of these distortions increases with the field, systematically tracking the low-temperature magnetization. These distortions weaken the antiferromagnetic spin exchange, a finding that provides important insight into magnetic transitions in other copper halides
The accurate electron density distribution and magnetic properties of two metal-organic polymeric ma...
We report on a comprehensive characterization of the newly synthesized Cu2+-based molecular magnet [...
We report on a comprehensive characterization of the newly synthesized Cu2+-based molecular magnet [...
We investigated magnetoelastic coupling through the field-driven transition to the fully polarized m...
We combined synchrotron-based infrared and Raman spectroscopies, diamond anvil cell techniques, and ...
Molecule-based materials offer unique opportunities to explore the interplay between charge, spin, a...
We present the results of high-field magnetization and muon-spin relaxation measurements on the coor...
The structural, electronic, and magnetic properties of the new linear chain coordination polymer CuF...
We measured NMR and magnetic susceptibility for the quasi-two-dimensional, weakly XY-like, spin-1/2 ...
We have performed elastic and inelastic neutron scattering experiments on single crystal samples of ...
We investigate the cause of spatial superexchange anisotropy in a family of copper-based, quasi-two-...
An unique crystal structure of copper hydroxyl-fluorite, Cu3(OH)2F4, hosts the trimerized chains of ...
In this thesis, I present magnetic and optical property studies of a S = 1/2 Heisenberg antiferromag...
Magneto-structural correlations have been made for a number of pyridine and pyrazine complexes of ir...
Two Cu2+ coordination polymers [CuCl(pyz)(2)](BF4) 1 and [CuBr(pyz)(2)]-(BF4) 2 (pyz = pyrazine) wer...
The accurate electron density distribution and magnetic properties of two metal-organic polymeric ma...
We report on a comprehensive characterization of the newly synthesized Cu2+-based molecular magnet [...
We report on a comprehensive characterization of the newly synthesized Cu2+-based molecular magnet [...
We investigated magnetoelastic coupling through the field-driven transition to the fully polarized m...
We combined synchrotron-based infrared and Raman spectroscopies, diamond anvil cell techniques, and ...
Molecule-based materials offer unique opportunities to explore the interplay between charge, spin, a...
We present the results of high-field magnetization and muon-spin relaxation measurements on the coor...
The structural, electronic, and magnetic properties of the new linear chain coordination polymer CuF...
We measured NMR and magnetic susceptibility for the quasi-two-dimensional, weakly XY-like, spin-1/2 ...
We have performed elastic and inelastic neutron scattering experiments on single crystal samples of ...
We investigate the cause of spatial superexchange anisotropy in a family of copper-based, quasi-two-...
An unique crystal structure of copper hydroxyl-fluorite, Cu3(OH)2F4, hosts the trimerized chains of ...
In this thesis, I present magnetic and optical property studies of a S = 1/2 Heisenberg antiferromag...
Magneto-structural correlations have been made for a number of pyridine and pyrazine complexes of ir...
Two Cu2+ coordination polymers [CuCl(pyz)(2)](BF4) 1 and [CuBr(pyz)(2)]-(BF4) 2 (pyz = pyrazine) wer...
The accurate electron density distribution and magnetic properties of two metal-organic polymeric ma...
We report on a comprehensive characterization of the newly synthesized Cu2+-based molecular magnet [...
We report on a comprehensive characterization of the newly synthesized Cu2+-based molecular magnet [...