碳与其他原子连接的原子键吸收红外线。
The atomic bonds between carbon and other atoms absorb infra red radiation.
影响非晶硅折射率及成膜质量的主要因素是原子键能以及微型缺陷;
The bonding energy and micro-defects are the major factors that affect the film refractive index and film quality.
研究小组将一层石墨烯薄膜至于两层高分子材料之间,然后用拉曼光谱来测量拉伸时碳原子键的反应。
The team put a single graphene sheet between two layers of polymer and used Raman spectroscopy to measure how the carbon bonds responded when the graphene was stretched.
Well, if this bond has completely identically equal sharing of electrons, then this bond will be nonpolar.
如果一根键连的两个原子,对键上的电子吸引程度是完全等价的,那么这根键是非极性的。
It turns out that the antibonding orbital is a little bit higher from the atomic orbital level than the bonding orbital is lower.
这证明了,反键轨道,比原子轨道高,成键轨道比原子轨道第。
And what you find is when you have a bonding orbital, the energy decreases compared to the atomic orbitals.
你们发现当你有个成键轨道的时候,相比原子轨道能量要降低。
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