• McPeak, J.E.; Eaton, S.S.; Eaton, G.R.: Electron Paramagnetic Resonance of Lanthanides. In: Cotruvo, Joseph A. [Ed.] : Rare-Earth Element Biochemistry : Methanol Dehydrogenases and Lanthanide Biology Elsevier, 2021 (Methods in Enzymology ; 650). - ISBN 978-0-12-823856-1, p. 412-450

10.1016/bs.mie.2021.01.038

Abstract:
Many applications of lanthanides exploit their electron spin relaxation properties. Double electron-electron measurements of distances are possible because of the relatively long relaxation times of Gd3+. Relaxation enhancement measurements of distance are possible because of the much shorter relaxation times of other lanthanides. Magnetic resonance imaging contrast agents use the long relaxation time of the S-state Gd3+ ion, and NMR shift reagents use the fast relaxation of selected other lanthanides. Other than Gd3+ and the isoelectronic Eu2+ ion, spin relaxation of the lanthanides is so fast that their EPR spectra can be observed only in the liquid helium temperature range. In this chapter the EPR properties of each of the lanthanides is briefly summarized, with an emphasis on electron spin relaxation.