And the surface beneath the sample molecule is usually metal, too, and its smooth, featureless mash of electron orbitals can camouflage the molecule lying on top of it.
在样品表面以下的分子通常也是金属的,并且它平滑的相似的电子轨道叠加能够伪装成它上面的分子。
One of the main difference is is that when you're talking about multi-electron orbitals, they're actually smaller than the corresponding orbital for the hydrogen atom.
其中最主要的区别之一,是当你讨论多电子轨道时,它们实际上,要比对应的氢原子轨道,要小一些。
When we talk about orbitals in multi-electron atoms, they're actually lower in energy than the corresponding H atom orbitals.
当我们讨论多电子原子的轨道时,它们的能量实际上比对应的氢原子轨道要低。
There’s a radially symmetric blob, and a double-lobed blob with a node in the middle – just like the patterns of electron density that the s and p atomic orbitals give rise to.
右图中的球是围绕碳原子的电子云的图像。 它们分别是径向对称的球和中间有节点的双扁球形状,就像s和p原子轨道给出的电子密度图。
This is the clouds or the orbitals, electron cloud interactions.
这就是电子云或轨道电子云相互影响。
If you took high school chemistry, then you undoubtedly recall the bizarre drawings of the "orbitals" that describe where in an atom or a molecule an electron is likely to be found.
“如果你曾上过的高中化学课,那么毫无疑问你能记起这些奇特的“轨道”图片,它描绘了一个分子或者原子的电子可能被发现的位置。”
The result showed that galena surface state interacted with adsorbates not only in overlap of orbitals, but in electron transfer between them.
结果表明:方铅矿表面态在与外来吸附质相互作用时,不仅有轨道重迭而且发生电子转移。
This makes the system of orbitals unstable and an electron from an orbital further out rapidly fills the hole.
这使得轨道系统不稳定,外一层轨道的电子会迅速跃迁到内层空轨道上,填补空穴。
This paper briefly introduces the isolobal analogy model from 8 electron rule, 16-18 electron rule and molecular hybrid orbitals theory.
本文从八隅规则、16—18电子规则及杂化分子轨道内在联系简单地介绍了等叶片相似模型。
The reason that there is increased electron density here is you can see that these two orbitals come together and constructively interfere.
你们可以看到两个轨道,靠在一起相长叠加,这就是为什么中间的电子态密度增加了。
This electron pair occurs one of several equivalent hybrid orbitals on the metal.
电子对占据了金属离子的某个杂化轨道。
And the third fact that we need to keep in mind is that spins remain parallel prior to adding a second electron in any of the orbitals.
第三个事实是我们需要记住在,每个轨道加入第二个电子之前,自旋保持平行。
The relationship between the molecular orbitals energy levels and the biochemistry properties, electron spectrum are discussed.
分析分子轨道能级与生化性质和电子光谱的关系。
The relationship between the molecular orbitals energy levels and the biochemistry properties, electron spectrum are discussed.
分析分子轨道能级与生化性质和电子光谱的关系。
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