离子间的
- 与 离子间的 相关的网络例句 [注:此内容来源于网络,仅供参考]
-
The results show that quartz cannot react with oleic irons at pH=8-10, because it is difficult to combine with metallic irons. On the contrary, clinochlore can adsorb with oleic ions because there are enough active metallic positive ions between the minerals layers which can combine with clinochlore. The clinochlore can be hydrophobic, and so the separation can be realized finally. At pH=9, the clinochlore removal rate is the maximum, the purity of SiO2 is 99.86%, and the recovery of SiO2 is 35%.
结果表明:在pH为8~10的碱性溶液中,粉石英难与金属阳离子缔合,所以,不与油酸根离子结合;而斜绿泥石解离后层间存在活性金属阳离子,可与油酸根离子发生化学吸附产生疏水作用,因而使用反浮选的方法能有效地实现二者的分离:当pH为9时,斜绿泥石的去除率最高,粉石英的纯度达99.86%,回收率为35%。
-
Transition metal nitrides belong to a class of interstitial compounds, have the properties of covalence compound, ion crystal and transitional metals.
过渡金属氮化物是一类金属间充型化合物,兼具有共价化合物、离子晶体和过渡金属的性质。
-
The results suggest that CHBr3 is likely to intercalate into ctDNA and such intercalations mainly depend on the relative binding affinity of a metal ion to the bases and to the phosphate groups in DNA.
据此推断,CHBr3可能主要是通过嵌插作用与ctDNA碱基结合,金属离子对CHBr3与ctDNA结合的影响主要取决于金属离子与DNA的碱基和磷酸基团间结合的相对亲和比。
-
Covalent bond, ionic bond, metallic interaction and Van der Waals force. Different potentials can be constructed according to the different interactions. For different types of phenomena of some interaction, different potentials can also be constructed. So, a great variety of potentials can be found in literature.
可依据不同类型的相互作用如共价键、离子键、金属键和Van der Waals力等构建不同类型的原子间相互作用势,而且同一类型的相互作用也因所处理的性质或过程(如体积、表面、团簇、缺陷等)不同所采用的形式也不相同,这样就构建了大量的各种形式的原子间相互作用势。
-
The amount of oxygen in the recording layer is substantially greater than the amount required for the stoichiometric oxide or oxides of the segregant or segregants, and a substantial portion of the oxygen present in the recording layer is present in the inter-granular material.
记录层中的氧的量显著大于分离子或多种分离子的化学计量氧化物或多种氧化物所需的量,出现在记录层中的氧的主要部分存在于颗粒间材料中。
-
But not all catalytically interesting transition elements form polynuclear cations appropriate for intercalation.
但并非所有具有催化活性的金属离子都能形成合适的聚合离子嵌入层间形成稳定的层柱材料。
-
In order to improve the electrochemical performance of LiCoO2, the majorities of researchers are working on the adjustment and substitution of the lay element, in order to increase the extract and deintercalated quantity and overcharge-resistant ability, the method pillaring in the interbed is brought forward for strengthening the structure stability.
目前为了改善LiCoO2的电化学性能,多数研究者进行的是层板元素的调控和替换,但实际效果仍不甚理想,我们采取层间柱撑金属离子的办法来提高材料的结构稳定性,以增加LiCoO2材料的锂离子可脱嵌量以及耐过充电压。
-
In order to improve the electrochemical performance of LiCoO2, the majorities of researchers are working on the adjustment and substitution of the lay element, in order to increase the extract and deintercalated quantity and overcharge-resistant ability, the method pillaring in the interbed is brought forward for strengthening the structure stability.
目前为了改善LiCoO2的电化学性能,多数研究者进(来源:8272A27BC论文网www.abclunwen.com)行的是层板元素的调控和替换,但实际效果仍不甚理想,我们采取层间柱撑金属离子的办法来提高材料的结构稳定性,以增加LiCoO2材料的锂离子可脱嵌量以及耐过充电压。
-
P and 〓Si MAS NMR results show that both Si-OH groups on the pillars and P-OH groups on the layers react with the Ni〓 and form Si-ONi and P-O-Ni bondings, resulting in a more homogeneous dispersion of the NiO in the interlamellar region.
元素分析表明新方法中未焙烧的前驱体的层间存在大量的胺基,可能与镍产生配合作用,有利于金属离子进入层间。
-
To get better anode materials, a large number of alternative possibilities for anodes of LIBs have recently been studied and reported in the literatures.
为了寻找性能更高的负极材料,许多新型的锂离子负极材料特别是金属间化合物在近来的锂离子电池研究中引起了相当的重视。
- 推荐网络例句
-
The split between the two groups can hardly be papered over.
这两个团体间的分歧难以掩饰。
-
This approach not only encourages a greater number of responses, but minimizes the likelihood of stale groupthink.
这种做法不仅鼓励了更多的反应,而且减少跟风的可能性。
-
The new PS20 solar power tower collected sunlight through mirrors known as "heliostats" to produce steam that is converted into electricity by a turbine in Sanlucar la Mayor, Spain, Wednesday.
聚光:照片上是建在西班牙桑路卡拉马尤城的一座新型PS20塔式太阳能电站。被称为&日光反射装置&的镜子将太阳光反射到主塔,然后用聚集的热量产生蒸汽进而通过涡轮机转化为电力