金属有机物 meaning in English
metalorganic
metallorganics
Examples
- Traditional methods of manufacturing oxide films include thermal oxidation , chemical vapor phase deposition , metal - organic chemical vapor phase deposition , sol - gel method and so on
传统制备氧化物薄膜的方法包括热氧化、化学汽相淀积、金属有机物化学汽相淀积、溶胶凝胶法等等。 - Among the carbon hydrogen storage material , activated carbon , carbon fiber , and carbon nanotuber are introduced ; in the organic hydrogen storage material , organic liquid and metal organic are introduced
其中碳基储氢材料主要介绍了活性炭、碳纤维、碳纳米管及碳化物的衍生物;而有机物储氢材料主要介绍了有机液体和金属有机物。 - The article proposes a possible development trend in this research field , puts forward a key of developing a novel porous material and probing into a novel metal organic hydrogen storage material is the development of metal organic porous material
指出了碳基储氢材料的未来研究方向,提出了金属有机多孔材料的逐步发展,是开发新型多孔材料的一个关键,也是探索新型的金属有机物储氢材料的关键。 - According to this , the research of the fatigue properties of the ferroelectric films was proposed . the lead zirconate titanate ( pzt ) film was prepared by a metal - organic decomposition method . the films " physical properties were analysed by x - ray diffraction ( xrd ) , scanning electron microscopy ( sem ) and hysteresis loops
然后采用金属有机物热分解法制备出作为研究对象的锆钛酸铅pb ( zr , ti ) o _ 3 ( pzt )薄膜,用x射线衍射仪、扫描电镜和rt6000s铁电测试仪测量表征铁电薄膜。 - Based on the theory that the optical properties of zncdse / znse qd structure at different formation and ripening stage are different from each other , by investigating the variation in emission peak energy and integrated intensity , the formation and ripening information of the dots was obtained , which overcomes the disadvantage of atomic force microscopy ( afm ) in that it can not be applied to the measurement of the initial formation stage of the qd . furthermore , it is of great help to clarify the controversies in the ripening process of se - compound qd
利用量子点在不同形成和熟化阶段具有不同的光学性质这一思想,通过测量zncdse znse量子结构的发光峰的位置与相对强度的变化,获得了量子点的形成和熟化信息,从而既解决了一般金属有机物化学气相沉积( mocvd )设备由于没有原位监测仪器而无法对量子点的形成过程进行监测的不足,又澄清了原子力显微镜表征的量子点熟化过程的争议。