金属硼化物
- 网络metal boride;metal borides
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因此,制备非晶Al-Mg-B薄膜材料,不仅可以进一步提高该材料的使用性能,还将在三元系金属硼化物(XYB14)的研究和开发方面取得突破性进展。
Therefore , amorphous Al-Mg-B thin film can further improve the performance , and promote the research and development of ternary metal boride ( XYB14 ) .
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理论和实验结果表明金属硼化物纳米材料具有丰富有趣的结构形态和优异的物理化学性能。
Research indicates that metal boride nanocomposites have richness , interesting structure and excellent physical , chemical properties .
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金属硼化物的电化学储氢活性研究
Studies on Electrochemical Hydrogen - storage Activities of Metal Borides
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研究了噻吩类型硫在金属硼化物上的原位还原深度脱硫。
The desulfurization over different metal borides and the choices of suitable nickel salt precursor and amount of reducing reagent were conducted .
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理论和实验表明金属硼化物纳米材料具有丰富的结构形态和优异的物理化学特性,但是稀土金属单质和硼单质都具有高熔点、高沸点的物理性质使得金属硼化物的合成比较困难。
Theories and experiments results reveal that the metal borides have abundant structural and excellent physical and chemical properties . However , it is more difficult to synthesize the metal borides because of the high melting and boiling point of rare-earth metal and boron .
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限制几何构型茂金属/硼化物催化1-癸烯齐聚及其产物表征
Synthesis and characterization of oligomers from 1-decene catalyzed by metallocene catalyst with constrained geometry
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过渡金属二硼化物作为高容量负极的研究
A Study of Metal Borides as High Capacity Anode Materials for Aqueous Primary Batteries
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但是,对于其类似化合物中超导电性的研究却还存在很多问题:许多简单金属二硼化物中不存在超导电性,关于过渡金属二硼化物中超导电性的实验报道则存在很多的分歧。
However , there are lots of problems in researches on related materials : no superconductivity was found in other simple metal diboride and experimental reports on superconductivity in transition metal diboride usually don 't agree ;
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介绍了茂金属/硼化物催化体系的研究进展,包括硼化物的合成、聚合机理及催化剂的结构对聚合体系的影响。
This article introduced the researches and developments in recent years on metallocene / boride catalyst system for olefin polymerization , including synthesis of the borides , polymerization mechanism and effects of the catalyst structure on properties of the polymers .
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金属化合物有硼化物、硅化物、复合碳比物等。
Metallic compounds include boride , silicious and compound carbide , etc.
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吸热的放氢反应生成了锂的卤化物、稀土金属氢化物和稀土金属硼化物。
The endothermic dehydrogenation reactions produced lithium halides , hydrides and borides of the corresponding rare earth element .