ESR Absorption of Cesium and Rubidium Solutions in Ethylamine

Abstract

Electron spin resonance absorption spectra of cesium and rubidium solutions in ethylamine have been observed at temperatures between −29° and +23°C. These spectra are characterized by a sharp single‐line resonance near the center of a hyperfine pattern. The lines of a hyperfine pattern vary in amplitude and breadth. The larger amplitude, narrower lines lie near the center of the spectrum. The hyperfine patterns are attributed to ⁸⁵Rb and ¹³³Cs nuclei interacting with an unpaired electron. The spin density at the ⁸⁵Rb nucleus varies from 1.05±0.1×10²⁴ cm³ at −25°C to 1.90±0.05×10²⁴ cm³ at 23°C and at the ¹³³Cs nucleus from 2.29±0.03×10²⁴ cm³ at −29°C to 2.80±0.03×10²⁴ cm³ at −10°C. The variations in line breadths are interpreted in terms of the structure of the metal monomer. The difference in g values between the single‐line resonance and the hyperfine pattern is attributed to spin—orbit coupling in the monomer and structural implications are discussed. The single‐line resonance is assigned to the solvent anion, i.e., the solvated electron.