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Chemical properties of Lutetium - Health effects of Lutetium - Environmental effects of Lutetium
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LutetiumPure metal Lutetium has been isolated only in recent years and is one of the more difficult to prepare. It can be prepared by the reduction of anhydrous LuCl3 or LuF3 by an alkali or alkaline earth metal. The metal is silvery white and relatively stable in air. It is the hardest and the densest of the lanthanides. Applications Lutetium is very expensive to obtain on useful quantities and therefore it has very few commercial uses. One commercial application has been as a pure beta emitter, using Lutetium which has been exposed to neutron activation. A tiny amount of Lutetium is added as a dopant to Gadolinium gallim garnet (GGG), which is used in magnetic bubble memory devices. Lutetium in the environment
It is a rare earth metal and perhaps the most expensive of all rare
elements. It is found in small amounts with all rare earth metals, and
is very difficult to separate from other rare elements.
This is largely because of the way it is found in
nature. The lanthanides are found in nature in a number of minerals. The
most important are xenotime, monazite, and bastnaesite. The first two
are orthophosphate minerals LnPO4 (Ln denotes a mixture of
all the lanthanides except Promethium which is very rare) and the third
is a fluoride Carbonate LnCO3F. The most common lanthanides in these minerals
are, in order, Cerium, Lanthanum,
Neodymium, and Praseodymium. Monazite
also contains Thorium and Yttrium, which makes handling difficult since
Thorium, and its decomposition products are radioactive.
Health effects of Lutetium
Lutetium is mildly toxic by ingestion, but
its insoluble salts are non-toxic. Like other rare-earth metals
Lutetium is regarded as having a low toxicity rating but it and
its compounds should be handled with care.
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