Prof.
Faculty of Chemistry, Jagiellonian University, Kraków
Author in the following contributions
- Magnetocaloric effect in a matrix of high-spin clusters
- Magnetocaloric effect of three cyanido-bridged coordination polymers based on Mn(II) and Nb(IV)
- A magnetic study of an anisotropic Cu<sup>II</sup>-[W<sup>V</sup>(CN)<sub>8</sub>]<sup>3-</sup> molecular metamagnet family
- Co<sub>12</sub>Fe<sub>7</sub> magnetic molecular cluster - on the way to control multifunctional discrete molecular materials architecture
- Azine and polyazine N-oxide ligands for novel magnetic molecular materials
- Charge-transfer magnetic (H<sub>3</sub>O)[Ni<sup>III</sup>(cyclam)][M<sup>II</sup>(CN)<sub>6</sub>]∙nH<sub>2</sub>O (M = Ru, Os) chains based on extraordinary redox couples
- Pressure study of molecular magnet based on 3d and 4d metals
- Tuning of magnetic field-induced properties of Mn<sub>9</sub>W<sub>6</sub>-based networks
- Studies of magnetic and photomagnetic properties of a new member of Cu(II)-Mo(IV) photomagnetic family
- Photomagnetic effect in discrete Cu-Mo cyanido-bridged molecules
- Strategies towards cyanide-based multifunctional molecular materials
- New coordination polymer based on [Ni(cyclam)]<sup>2+</sup> and octacyanoniobate(IV)
- New perspectives in oligonuclear cyanido-bridged systems
- Optical activity and switchable luminescence in octacyanido-based bimetallic layered magnets
- Structural flexibility of CN-bridged magnetic networks based on planar cyclam complexes
- Cyanide-bridged Mn<sup>II</sup>-Nb<sup>IV</sup> ferrimagnetic coordination chains with ferromagnetic ordering
- Control of the magnetic behaviour of cyanide-bridged Mn<sup>II</sup>-Nb<sup>IV</sup> coordination polymers by the introduction of supporting ligands.
- Tuning of magnetic ordering temperatures of Mn2Nb 3D chiral molecular magnet by pressure and guest molecules
