| 1. | Electronic structure of semiconductor mn4si
7能带结构的研究 |
| 2. | In the band structure , one band that is completely filled with electrons is termed valence band
在能带结构中,完全填满电子的带被称为价带。 |
| 3. | Analysis on photocatalytic activity and surface energy band structure of ag , nd tio2 nanometer materials
2纳米材料光催化活性及其表面能带结构分析 |
| 4. | Effective masses at the top of valence band and at the bottom of conduction band are deduced from the band structure
价带顶和导带底的有效质量从计算得到的能带结构中求出。 |
| 5. | These interactions varies the band structure of phthalocyanine , accordingly change the absorption spectrum of mpc films
分子间的相互作用使酞菁能带结构改变,吸收谱峰产生相应位移。 |
| 6. | As the crystal for electromagnetic waves , it has similar properties with the solid crystals existing in the nature
作为一种电磁波晶体,具有类似固体晶体的性质,具有一定的能带结构。 |
| 7. | The band structure reveals the form of the impurity levels due to the substitutional impurity in semiconductors
掺杂模型的能带结构显示,由于在半导体母体中进行杂质原子取代而形成了杂质能级。 |
| 8. | Due to special crystal structure and energy level structure , tatanlate have high photocatalytic activity for water splitting
摘要钽酸盐光解水催化剂,因其特殊的晶体结构和能带结构而具有高的光解水活性。 |
| 9. | The net charge of transition metal atom has decreased as a result of the static effect of lithium ion and effect of energy band of co and ni
由于锂离子的静电作用和钴、镍自身能带结构的影响,过渡金属的净电荷减小。 |
| 10. | With a broaden and likely direct band gap , porous silicon has a different band structure to that of the bulk silicon . thus the porous silicon can emit at room temperature
多孔硅改变了体硅的能带结构,使禁带展宽,并由间接带隙向直接带隙转变,实现了室温发光。 |
