This code allows comparing crystal structures.
这代码用来比较晶体构造。
We introduced two new types of 2d photonic crystal structures for.
该结果远大于已提出的各向异性二维光子晶体的完全禁带。
The crystal structures have been determined by X-ray monocrystal diffraction.
用X-射线单晶衍射测定了该化合物的晶体结构;
The crystal structures have been determined by single-crystal X-ray diffraction.
所有化合物的晶体结构都通过单晶X-射线衍射确定。
The crystal structures of the two complexes were determined via X-ray diffraction.
采用单晶X射线衍射表征了晶体结构。
Phosphating products have unique characteristics based upon controlled crystal structures.
磷化材料的特性取决于可否控制晶体的结构。
The crystal structures and ionic conductivity of yttria stabilized zirconia (YSZ) are analyzed.
分析了钇稳定的二氧化锆(YSZ)的晶体结构及离子导电性。
No new chemical bond and special crystal structures were observed according to their chemical structures.
在内部化学结构上,没有观察到两种载体的化学键结合和特殊晶体结构的形成。
The crystal structures, lattice energies and electronic band structures at ambient condition are summarized.
概述了常压下分子晶体的晶体结构、晶格能、电子键结构等晶体性质。
The X-ray crystal structures of three chiral molecular clips based on diethoxycarbonyl glycoluril were obtained.
制备并得到了三种基于二乙酯基甘脲的手性分子夹的晶体结构。
Strong shocks deform crystal structures and create mosaic patterns that are easily detectable under the microscope.
的翻译是:强的震动扭屈晶体结构并且创造容易地是可发现的在显微镜下的马赛克样式。
Some of them have been studied by X-ray diffraction technique, and their crystal structures are reported precisely.
近年来,人们对糖类化合物的合成方法、结构表征和生物活性进行了深入而广泛的研究。
Synthesis and Crystal Structures of Metal Complexes with 2, 2 '-biimidazole Induced by Rigid Ligand 2, 2' -bipyridine.
刚性配体2,2' -联吡啶诱导的2,2 ' -双咪唑金属配合物的合成与晶体结构。
The crystal structures of bastnaesite-(Ce) and fluocerite-(Ce) was refined by high power four-circle X-ray diffractometer.
用强功率四圆单晶衍射仪精确地修正了氟碳铈矿和氟铈矿的晶体结构。
Since the electrical properties of solids depend on their crystal structures, his group is experimenting with new atomic lattices.
由于固体的导电性能由其晶体结构所决定,Kanatzidis博士团队于是实验新的原子晶格。
The possible B2CN crystal structures with hexagonal and heterodiamond structures were studied by first principles calculation.
采用第一性原理研究了B2CN晶体可能的六方结构和异质金刚石结构;
They are made up from both of cubic and hexagonal diamond crystal structures, which are called a sort of intergrowth crystals.
除常见的立方金刚石结构外,还存在一种罕见的六方金刚石结构。它们通常共存在一个金刚石织构体中,形成共生晶体。
Its crystal structures were analyzed by X-ray diffraction (XRD) method. The deposition technology of the WO3 thin film was obtained.
利用X射线衍射(XRD)方法对薄膜的结构进行了分析,得出了WO 3薄膜的沉积工艺。
Five crystal structures are determined by CCD diffractometer after the single crystals were grown by slow evaporation at room temperature.
用溶剂自然挥发法培养了五个单晶,并采用CCD 单晶衍射仪测定了它们的晶体结构。
With several examples of single crystal structures of compounds incorporating aromatic rings, the criterion of the centroids distance of 0.
通过一些晶体结构的实例指出,目前广泛采用的质心距小于0。
The criterion will supply a theoretical reference for realizing the mechanism of crystal growth and obtaining the crystal structures needed.
此判据将为了解晶体生长方式及获得所需晶体组织提供理论参考。
From the chemical bond viewpoint, dielectric properties of some practical materials with various crystal structures were quantitatively studied.
利用化学键的观点定量地研究了一些具有各种晶体结构实用材料的介电性质。
In this thesis, manganese dioxide which have a series of different crystal structures and morphologies, have been prepared by a hydrothermal method.
采用水热合成法制备一系列不同晶型结构和形态的二氧化锰粉体材料。
Transition metal oxides were widely used in different areas due to their multi-form of oxidation states as well as their special crystal structures.
过渡族金属氧化物由于具有多种化合价形式和特殊的结构而在许多领域有广泛的应用。
A clubbed frame dispersion phase and a bunchy dispersion phase are among the main crystal boundaries. There are some inner crystal structures in the B_C grain.
复合材料的主晶相之间有长棒状架构弥散相和束状弥散相,在部分BC晶粒内部出现了内晶结构。
Although the energy loss of ordinary multi-layer photonic crystal structures is low, the band gap is usually limited, there is also wide-wide Angle high anti-band hard.
普通多层膜系结构光子晶体的禁带内能量损失较低,可是禁带宽度通常有限,而且出现较宽的全角高反带很难。
Although the energy loss of ordinary multi-layer photonic crystal structures is low, the band gap is usually limited, there is also wide-wide Angle high anti-band hard.
普通多层膜系结构光子晶体的禁带内能量损失较低,可是禁带宽度通常有限,而且出现较宽的全角高反带很难。
应用推荐