High-Frequency Tunable EPR of Fe2+in the Natural and Synthetic Forsterite

Copper(II)-and iron(III)-modified Pb[Zr x Ti 1-x ]O 3 ferroelectrics were investigated by means of highfield/high-frequency EPR. The results obtained suggest that Cu 2+ and Fe 3+ both substitute as acceptor centers for [Zr,Ti] 4+ . Whereas for the iron-doped system the charge compensating oxygen vac

Electron paramagnetic resonance (EPR) at conventional magnetic fields and microwave frequencies, respectively, B 0 ≤ 1.5 T, n ≤ 35 GHz, has been widely applied to odd electron-number (S = 1/2) transition metal complexes. This technique is less successfully applied to high-spin systems that have even

EPR spectral shape of non-Kramers paramagnetic centers (PCs) is theoretically analyzed under conditions of saturation. The analysis is performed in a model that includes the spectral diffusion process induced by a random modulation of the dipole-dipole interaction of the paramagnetic centers, by reo

Continuous-wave EPR of nitroxide spin labels at conventional (9.4 GHz) and high (94.2 GHz) frequencies is applied to characterize molecular dynamics in [2]catenanes composed of macrocycles with rigid phenyleneethynylene and flexible alkyl chain building blocks. By using a set of compounds with incre