Researchers in the United States have successfully characterized a promethium coordination complex for the first time. This development could pave the way for improved understanding and applications of this elusive rare earth element.<\/p>\n
\u201cLanthanide rare-earth metals are ubiquitous in modern technologies, but we know little about chemistry of the 61st element, promethium (Pm), a lanthanide that is highly radioactive and inaccessible,\u201d said the researchers in a new study.<\/p>\n
Promethium, element 61 on the periodic table, distinguishes itself from other lanthanides by its lack of stable isotopes. This makes it exceptionally challenging to isolate and study.<\/p>\n
\u201cUnlike the vast majority of elements, the rare earth element promethium has no stable isotopes, which means that it is constantly decaying, making it difficult to study,\u201d highlighted a press release.<\/p>\n
Studying electronic structure of promethium complex<\/p>\n
The research team successfully isolated a pure sample of promethium-147 and bonded it with an organic molecule in an aqueous solution.<\/p>\n
\u201cThis created a stable compound, allowing the researchers to use X-ray absorption spectroscopy to measure the length of the bonds between promethium and the oxygen atoms it was linked to,\u201d added the researchers.<\/p>\n
\u201cThe researchers were able to study the electronic structure of the promethium complex, providing new information about promethium\u2019s chemical and physical properties and how those properties differ from those of the other lanthanides.\u201d<\/p>\n
The demand for promethium is steadily growing due to its applications in diverse fields, including luminous paints, lighting, and nuclear batteries<\/a>.<\/p>\n These batteries power critical devices such as pacemakers, guided missiles, and communications equipment. Furthermore, promethium shows promise in radioactive imaging and cancer treatments.<\/p>\n Currently, the Department of Energy Isotope Program remains the sole global producer of promethium-147.<\/p>\n Promethium differs from other lanthanides<\/p>\n The study<\/a> revealed a crucial insight into the lanthanide series. It showed that while bond lengths between elements and molecules generally decrease as atomic number increases, this trend slows significantly after promethium.<\/p>\n \u201cPromethium is one of a series of 15 metallic elements called lanthanides. These elements are difficult to separate from one another because they are so chemically similar,\u201d explained the press release.<\/p>\n \u201cKnowing more about promethium\u2019s chemical properties could lead to better separation methods and new applications.\u201d<\/p>\n This discovery could lead to improved separation methods, which is a critical factor in increasing the production of pure promethium.<\/p>\n Focus on rare earth materials<\/p>\n