PNNL

Abstract

Anhydrous plutonium tetrafluoride is an important intermediate in the production of metallic Pu. This historically important compound is also known to exist in at least two distinct, yet understudied hydrate forms, PuF4·xH2O(s) (0.5 = x = 2) and PuF4.2.5H2O(s). X-ray diffraction (XRD), thermogravimetric analysis (TGA), and scanning electron microscopy (SEM) are the most common tools used to characterize these materials, often in a context for studying structural and morphological changes that arise from aging or calcination. However, fundamental electronic and vibrational spectroscopic information is rather scarce. Here, we measured the visible, shortwave infrared and infrared diffuse reflectance, fluorescence, and Raman spectroscopy of PuF4(s) and PuF4·xH2O(s) to obtain a better electronic and vibrational fingerprint. Our work provides clear indication of the polymeric structure of anhydrous PuF4, consistent with the Raman spectrum of UF4 and its hydrates. Supporting data was provided with XRD, TGA, and SEM. It was found that the spectra are modified by particle size, which in turn is influenced by synthetic technique.