Spectroscopy Observation(光谱观察)研究综述
Spectroscopy Observation 光谱观察 - 435 Rj, and is therefore a good target for transmission-spectroscopy observations. [1] The present results are consistent with the spectroscopy observations of the cuprate superconductors, and the numerical calculations in normal state above pseudogap regime. [2] For spectroscopy observations, the energy resolution is of decisive importance. [3]435 Rj,因此是透射光谱观测的良好目标。 [1] 目前的结果与铜酸盐超导体的光谱观察以及在赝能隙以上的正常状态下的数值计算是一致的。 [2] 对于光谱学观察,能量分辨率具有决定性意义。 [3]
Ray Spectroscopy Observation 射线光谱观察
Moreover, by combining the ex situ scanning transmission electron microscopy and energy-dispersive X-ray spectroscopy observations at various stages of synthesis, along with density functional theory calculations, it was possible to track the synthesis route of solid rhombic dodecahedral PtRhNi nanoparticles, which are the precursors of PtRhNi nanoframes. [1] Scanning electron microscopy and energy-dispersive X-ray spectroscopy observation of the composite during the mineralization process revealed a two-phase structure (network/CC solid solution phase and CC hypercomplex gel phase). [2]此外,通过在合成的各个阶段结合非原位扫描透射电子显微镜和能量色散 X 射线光谱观察,以及密度泛函理论计算,可以追踪固体菱形十二面体 PtRhNi 纳米粒子的合成路线,它们是PtRhNi 纳米框架的前体。 [1] 在矿化过程中复合材料的扫描电子显微镜和能量色散X射线光谱观察揭示了两相结构(网络/CC固溶体相和CC超复合凝胶相)。 [2]