Electrical and magnetic properties of some organic charge transfer complexes

Communications occasional agitation, in order to allow the protons to diffuse from the anode vicinity into the electrolytic solution. The pH of the anodic and cathodic electrolytic solution was measured using a standard pH glass electrode (Facussel

The Charge-Transfer Properties of ## Rare Earth Complexes Two new Y-Cu complexes and some other rare earth complexes crystals are synthesized. The results of elemental analysis, IR, GTA are corresponding to their formula. The PA spectra of all these complexes and the charge-transfer spectra are s

Recently, considerable interest has been paid to polychelates of polymeric ligand with transition metal ions in order to improve their electrical properties. Some polymeric ligand complexes of Cu(II), Ni(II), and Co(II) have been synthesized, followed by chemical and physical characterization to emp

Electrical connections can be grown between two Pt wires by ac electrocrystallization of tetrathiafulvalenium bromide (TTFBr,, x = 0.74-0.79) from a non-aqueous solu-

Some pseudobinary and pseudoternary oxidenitrides \(\left(\mathrm{CeN}-\mathrm{CeO}_{2} ; \mathrm{LaN}_{\mathrm{L}} \mathrm{Ln}_{2} \mathrm{O}_{3} ; \mathrm{CeN}-\mathrm{Ln}_{2} \mathrm{O}_{3}, \mathrm{Ln}=\right.\) La. \(\mathrm{Y}:\) and \(\mathrm{YN}-L n_{2} \mathrm{O}_{3}, L n=\mathrm{La}, \math