Research of the Properties of Gadolinium Stearate by EPR Spectroscopy

“…Electron paramagnetic resonance (EPR) is a suitable method for the study of compounds and materials with free electrons, radicals, radical ions, particles in the triplet state, as well as paramagnetic ions of transition and rare earth metals. To summarize, both CNMs and lanthanide derivatives are suitable objects for EPR studies [17][18][19][20]. The CNTs [21,22], nitrogen-doped CNTs [23], boron-doped CNTs [24], CNFs [25][26][27], consolidate of CNTs and CNFs [28][29][30][31], GO [32][33][34], graphene [35], GO aerogels [36,37], GO quantum dots [38], carbon nanofibers [39], glass-like carbon [40], detonation diamonds and NDs [12], graphitepolystyrene composite [41], carbon films [42], natural coals [43], oxidized coals [44], carbon blacks [45], different carbon composites [46] and others [18] were investigated using the EPR.…”

“…The most often rare earth elements and their compounds studied by EPR are gadolinium derivatives [20,53,54] because only ions Gd 3+ and Eu 2+ EPR spectra at room temperature can be observed [19]. For some Ln derivatives, for example, for Ln(OH) 3 (Ln = La, Pr, Nd), EPR spectra can provide information about oxygen vacancies and the coordination environment of Ln 3+ [55][56][57].…”

Composition and Electronic Structure of La2O3/CNFs@C Core-Shell Nanoparticles with Variable Oxygen Content

“…Electron paramagnetic resonance (EPR) is a suitable method for the study of compounds and materials with free electrons, radicals, radical ions, particles in the triplet state, as well as paramagnetic ions of transition and rare earth metals. To summarize, both CNMs and lanthanide derivatives are suitable objects for EPR studies [17][18][19][20]. The CNTs [21,22], nitrogen-doped CNTs [23], boron-doped CNTs [24], CNFs [25][26][27], consolidate of CNTs and CNFs [28][29][30][31], GO [32][33][34], graphene [35], GO aerogels [36,37], GO quantum dots [38], carbon nanofibers [39], glass-like carbon [40], detonation diamonds and NDs [12], graphitepolystyrene composite [41], carbon films [42], natural coals [43], oxidized coals [44], carbon blacks [45], different carbon composites [46] and others [18] were investigated using the EPR.…”

“…The most often rare earth elements and their compounds studied by EPR are gadolinium derivatives [20,53,54] because only ions Gd 3+ and Eu 2+ EPR spectra at room temperature can be observed [19]. For some Ln derivatives, for example, for Ln(OH) 3 (Ln = La, Pr, Nd), EPR spectra can provide information about oxygen vacancies and the coordination environment of Ln 3+ [55][56][57].…”

Composition and Electronic Structure of La2O3/CNFs@C Core-Shell Nanoparticles with Variable Oxygen Content

“…Although lanthanide salts of fatty acids have a wide range of applications, it is striking that there are so few fundamental works on the study of their physicochemical properties. 21 The superiority of lanthanide fatty acid salts over inorganic lanthanide salts lies in their solubility in molten polymers. Thus, it is possible to obtain transparent polymer fibers, films, and plates with trivalent lanthanide ions introduced into the composition.…”

“…However, these measurements were most likely limited to a narrow range of application conditions. Although lanthanide salts of fatty acids have a wide range of applications, it is striking that there are so few fundamental works on the study of their physicochemical properties . The superiority of lanthanide fatty acid salts over inorganic lanthanide salts lies in their solubility in molten polymers.…”

Thin Films of Lanthanide Stearates as Modifiers of the Q-Sense Device Sensor for Studying Insulin Adsorption

Mechanisms of formation and shape control of pentagonal Pd-nanostars and their unique properties in electrocatalytic methanol oxidation and membrane separation of high-purity hydrogen