硒及硒化物可防治多种与硒缺乏相关的疾病。
Selenium and seleno-compounds could prevent or remedy diseases in which selenium is deficient.
这项技术在研究硒化物植入半导体的复合辐射中有希望获得特殊的重要性。
The technique promises to be of particular value in the study of recombination emission in selenide-implanted semiconductors.
通常以小量广泛分布,偶尔出现游离状态,但往往是以铁、铅、银或铜的硒化物出现。
It is widely distributed, usually in small amounts, occasionally uncombined but more often as selenides of iron, lead, silver, or copper.
硒化物玻璃具有低的材料色散、高的禁带宽度、长的多声子吸收边,是制备中远红外光纤的优秀材料。
Selenide glasses have low material dispersion, high-energy bandgap, long-wavelength multiphonon edge and it's the perfect candidate for mid-far-infrared fibers.
因此,硒的测定及形态分析对于了解不同形态的硒化物在生物体和环境中的迁移转化规律具有重要意义。
Speciation analysis of selenium is very important. It may lead to better understanding for the transformation and distribution of different selenium compounds in our life and environment.
应用MTT比色分析法比较研究有机硒化物—硒化壳聚糖和无机硒化物—亚硒酸钠对白血病K562细胞的作用。
The anti leukemia effects of organic selenium compound and inorganic selenium compound-sodium selenite were studied in K562 cells in culture with MTT colorimetric assay.
应用MTT比色分析法比较研究有机硒化物—硒化壳聚糖和无机硒化物—亚硒酸钠对白血病K562细胞的作用。
The anti leukemia effects of organic selenium compound and inorganic selenium compound-sodium selenite were studied in K562 cells in culture with MTT colorimetric assay.
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