Technetium-99 is obtained from Molybdenum-99.
锝- 99从钼- 99中获取。
The researchers conducted fundamental chemistry tests to better understand technetium-99 and its unique challenges for storage.
研究人员进行了基础化学实验,了解锝- 99的特性及其存储方面的独特挑战。
Technetium-99 is a byproduct of plutonium weapons production and is considered a major U. S. challenge for environmental cleanup.
锝- 99是武器级钚生产的副产物,它被认为是美国环境净化的主要挑战。
Its two most common isotopes are Technetium-98 and Technetium-99. Technetium-99 is synthetically produced by the beta decay of Molybdenum-99.
它最常见的两种同位素是锝- 98和锝- 99。锝- 99是人工制造的,由钼- 99贝塔衰变得到。
But researchers have been stymied because not all the technetium-99 is incorporated into the glass and volatilized gas must be recycled back into the melter system.
但研究人员一直没有成功,因为不是所有的锝- 99都能纳入到玻璃容器中,挥发性气体也必须被回收到熔化系统里。
A Washington State University study of the chemistry of technetium-99 has improved understanding of the challenging nuclear waste and could lead to better cleanup methods.
华盛顿州立大学一项有关锝- 99的化学研究,提升了我们对这种具有挑战性的核废料的认知,而且会让我们找到更好的清理方法。
A Washington State University study of the chemistry of technetium-99 has improved understanding of the challenging nuclear waste and could lead to better cleanup methods.
华盛顿州立大学一项有关锝- 99的化学研究,提升了我们对这种具有挑战性的核废料的认知,而且会让我们找到更好的清理方法。
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