掺杂程度

  • 网络doping level
掺杂程度掺杂程度
  1. 随着掺杂程度的增大,两种极化子都是载流子,同样经历了由Curie自旋到Pauli自旋的转变。

    With increasing doping level , the two polarons underwent similar transfer from Curie spin to Pauli spin and both polarons were charge carriers in the conducting polymer .

  2. 拉曼光谱检测结果表明,聚(3-苯基噻吩)膜在生长过程中聚合物掺杂程度随着沉积电量密度的增加而增大。

    Raman spectral results demonstrated that the doping level of P3PhT films increased with the increase of deposited charge density during the electrochemical growth process .

  3. 结果表明,GO的还原和N掺杂程度可以简单地通过控制刻蚀时间来进行调控。

    It is found that the degree of N-doping and GO reduction can be easily controlled by varying the N2 + ion sputtering time .

  4. 苯胺-邻位取代苯胺共聚物的电导率和Seebeck系数受共聚物链段上取代基含量和质子酸的掺杂程度的影响。

    Electron-donating group content and the doping level were the influencing factor of electrical conductivity , Seebeck coefficient and thermal conductivity of copolymers .

  5. 光电子能谱分析得出在聚甲基丙烯酸甲酯存在条件下,聚苯胺的氧化和掺杂程度;

    The degree of oxidation and doping was analysed by XPS ;

  6. 用633nm激发的拉曼光谱研究表明:微米管具有较高的掺杂程度,而纳米管的掺杂程度很低。

    632.8 nm excited Raman spectroscopic results demonstrated that the micro-tubules have relatively high doping level and the doping level of the nano-tubules are fairly low .

  7. 高掺杂半导体中补偿程度和注入水平对带尾结构的影响

    Influence of Compensation Degree and Injection Level on Bandtail-Structure in Heavily Doped Semiconductors

  8. 工作电极中聚苯胺薄膜的厚度和掺杂状态对电致变发射率器件的发射率有较大的影响,聚苯胺薄膜厚度增加或者掺杂程度增大都会导致器件的发射率升高。

    The thickness and the doping degree of the polyaniline films on the working electrodes have great influence on the emissivity of the infrared electrochromic devices . The emissivity of the devices raise as the thickness or the doping degree of the polyaniline films are increase .