All Stories

  1. The structure, magnetism and EPR spectra of a (μ-thiophenolato)(μ-pyrazolato-N,N′) double bridged dicopper(ii) complex
  2. Structure and magnetism of a binuclear CuII pyrophosphate: transition to a 3D magnetic behaviour studied by single crystal EPR
  3. Structural and EPR studies of pyrophosphate-bridged dinuclear CuII complexes
  4. Electron paramagnetic resonance study of ternary CuII compounds with glycine and phenanthroline
  5. Structure and magnetism of catena-poly[copper(II)-μ-dichloro-l-lysine]hemihydrate: Copper chains with monochloride bridges
  6. Exchange Interactions Through π–π Stacking in the Lamellar Compound [{Cu(bipy)(en)}{Cu(bipy)(H2O)}{VO3}4]n
  7. Collapse of the EPR fine structure of a one-dimensional array of weakly interacting binuclear units: A dimensional quantum phase transition
  8. Synthesis and structures of four new compounds of the copper(II)–carboxylate–pyridinecarboxamide system
  9. μ-Acetato-μ-aqua-μ-hydroxido-bis[(1,10-phenanthroline)copper(II)] dinitrate monohydrate
  10. EPR and magnetic studies of a carboxylate-bridged dinuclear copper(II) compound: [cu2(flu)4(dmf)2]
  11. ChemInform Abstract: Pyrophosphate-Bridged CuII Chain Magnet: {[Na3Cu(P2O7)(NO3)] ·3H2O}n.
  12. Pyrophosphate-Bridged Cu II Chain Magnet: {[Na 3 Cu(P 2 O 7 )(NO 3 )]·3H 2 O} n
  13. Magnetism and Structure in Chains of Copper Dinuclear Paddlewheel Units
  14. New copper(II)-radical one dimensional chain: Synthesis, crystal structure, EPR, magnetic properties and DFT calculations
  15. 1-D Polymers with Alternate Cu 2 and Ln 2 Units (Ln = Gd, Er, Y) and Carboxylate Linkages
  16. Isotropic and anisotropic spin-spin interactions and a quantum phase transition in a dinuclear Cu(II) compound
  17. Synthesis, crystal structure and magnetic properties of a new dinuclear copper(II) amino acid complex [Cu2(l-arg)2(μ-HPO4-O)(μ-HPO4-O,O′)(μ-OH)]−·(H3O)+·(H2O)6
  18. A seven-coordinate FeIII compound: [Fe{O(CH2CO2)2}(H2O)2(NO3)]. Preparation, structure and magnetic properties
  19. Gadolinium(III) and europium(III) l-glutamates: Synthesis and characterization
  20. Magnetic Properties of Ferromagnetic Quasi-1D Copper-Peptide Compounds:  Exchange Interactions and Very Low Temperature Phase Transitions
  21. Weak Exchange Interaction Supported by a Biologically Relevant Long Chemical Bridge in a Cu−Peptide Model Compound
  22. catena-Poly[copper(II)-μ-L-tyrosyl-L-leucinato]
  23. Electron Paramagnetic Resonance Study of Weak Exchange Interactions between Metal Ions in a Model System:  Cu II Gly-Trp †
  24. Structure and Magnetic Properties of Layered High-Spin Co(II)( l -threonine) 2 (H 2 O) 2
  25. Structural and Single Crystal EPR Studies of the Complex Copper L-Glutamine: A Weakly Exchange-Coupled System with syn-anti Carboxylate Bridges
  26. Carboxylate-Bridged Copper(II)−Lanthanide(III) Complexes [{Cu 3 Ln 2 (oda) 6 (H 2 O) 6 }·12H 2 O] n (Ln = Dy, Ho, Er, Y; oda = Oxydiacetate)
  27. Synthesis, Crystal Structure, and Magnetic Properties of the Mixed-Ligand Complex [Gd(CF 3 CO 2 ) 3 (phen) 2 (H 2 O)]
  28. Magnetic Properties of Carboxylate-Bridged Ferromagnetic Copper(II) Chains Coupled by Cation−π Interactions
  29. EPR Study of the Semiquinone Biradical Q A •- Q B •- in Photosynthetic Reaction Centers of Rhodobacter sphaeroides at 326 GHz:  Determination of the Exchange Interaction J o
  30. EPR study of the electronic properties and weak exchange interactions in bis(l-phenylalaninamidato)Cu(II)
  31. Structure, Disorder, and Molecular Dynamics in Zn( d , l -histidine) 2 :  EPR of Copper Ion Dopants, X-ray Diffraction, and Calorimetric Studies
  32. Structure and magnetic properties of binuclear Cu2(O2CCHCHCH3)4(DMF)2: a carboxylate-bridged Cu(II) spin dimer
  33. EPR Study of the Molecular and Electronic Structure of the Semiquinone Biradical Q A - • Q B - • in Photosynthetic Reaction Centers from Rhodobacter sphaeroides
  34. Crystal Structures and Magnetic Properties of CuX 2 (pdmp) 2 Complexes (X = Br, Cl)
  35. Magnetic properties of Cu(L-aspartato) ( H 2 O ) 2 : A linear chain antiferromagnet
  36. Vibronic Behavior and Single-Crystal EPR Spectra of Cu(II) in Copper-Doped Diaqua( l -aspartato)zinc(II) Hydrate
  37. Ion-Pair Charge-Transfer Complexes Based on ( o -Phenylenebis(oxamato))cuprate(II) and Cyclic Diquaternary Cations of 1,10-Phenanthroline and 2,2‘-Bipyridine:  Synthesis, Crystal Structure, and Physical Properties
  38. Magnetic properties of the M(PO3)3 (M=Ti, V) metaphosphates
  39. Magnetic Interactions in the Copper Complex ( l -Aspartato)(1,10-phenanthroline)copper(II) Hydrate. An Exchange-Coupled Extended System with Two Dissimilar Copper Ions
  40. EPR measurements in copper saccharinate single crystals
  41. EPR spectroscopy and exchange interaction parameters in Cu(glycine)2·H2O
  42. Magnetic interactions in Cu( L -isoleucine ) 2 ⋅ H 2 O: An EPR measurement
  43. Magnetic interactions in aqua(l-aspartato)-(2,2′-bipyridine)copper(II) trihydrate
  44. Spin-lattice interaction for ions in low-symmetry sites: The case of Mn 2 + : CaCO 3
  45. Specific heat and exchange interactions of two isomer and isostructural copper–amino-acid complexes
  46. Shifts with temperature of the EPR signal in Cu(l-alanine ) 2 : A low-dimensional paramagnet
  47. Molecular structure and exchange interactions in trans-bis(L-2-aminobutyrato)copper(II) and trans-bis(DL-2-aminobutyrato)copper(II)
  48. Superexchange coupling mediated by carboxylate and hydrogen bridges in copper amino acid complexes
  49. Second moment of the magnetic resonance of a dipolar-coupled lattice with several species of anisotropic spins
  50. Temperature dependence of the EPR spectra of Cu(AAB)2, a copper-aminoacid salt
  51. Magnetic properties of four Cu(ii)‐amino acid salts
  52. EPR study of electronic and magnetic properties of bis ( D L − α − amino − n − butyrato ) copper ( II ) . A layered magnetic system
  53. 14N Nuclear quadrupole interaction in Cu(II) doped l-alanine
  54. Anisotropy and field dependence of the electron-paramagnetic-resonance linewidth of Ag : Dy
  55. A general spin Hamiltonian to describe ligand hyperfine structure. Its application to heme-proteins. I. Nuclear Zeeman and hyperfine interactions