电子导电

  • 网络electronic conduction
电子导电电子导电
  1. 测试了该类纳米复合湿敏材料的温度响应特性,发现其在低湿环境下也具有较好的导电性,而且材料的导电行为同时存在离子导电和电子导电两种机理。

    The investigations on its humidity responses revealed that it exhibits high conductivity even at very low humidity , and both ionic and electronic conduction contributed to its conductivity .

  2. 电子共享许多核子并产生电子导电的化学键。

    A chemical bond in which electrons are shared over many nuclei and electronic conduction occurs .

  3. 电子导电聚合物[Ge(Pc)O]n的高分辨电子显微像

    High Resolution Electron Micrographs of an Electronic Conductive Polymer [ Ge ( Pc ) O ] _n

  4. 金属型非晶InSb,以电子导电为主,半导体型非晶InSb则以空穴导电为主。

    The electron conduction is dominant in the metal-type amorphous InSb and the hole in semiconductor-type one .

  5. 结果表明,金属型非晶态InSb以电子导电为主,半导体型非晶态InSb以空穴导电为主;

    Experimental results show that the conduction of the electron is dominative in the metal-type amorphous InSb and the conduction of the hole is dominative in the semiconductor-type amorphous InSb .

  6. 结果表明随PAn-g-PEG中PEG链段长度和含量的提高,共聚物的溶解性和成膜性能显著提高,电子导电率缓慢降低,热稳定性变差。

    The results show that when the PEG segments length or its content in the grafted copolymers are increased , the solubility and film-forming property of PAn-g-PEG improve remarkably , and the electrical conductivity decreases slowly , while the thermal stability becomes worse .

  7. 但是因其电子导电率低而影响其高倍率的充放电性能。

    But its low electronic conductivity affects the rate capacity performance .

  8. 固体电解质电子导电性测定的研究

    Study on the Determination of Electronic Conductivity of Oxide-based Solid Electrolyte

  9. 一些氧化物具有良好的离子导电性能和电子导电性能,这种物质被称为混合离子-电子导体,即混合电导材料。

    Some oxides , mixed ionic-electronic conductors , are called mixed-conducting materials .

  10. 氧化锆固体电解质电子导电性能的测定

    Measuring of Electronic Conductivity for Zirconia Solid State Electrolyte

  11. 离子-电子导电中呈现协同效应的互穿网络聚合物

    Complexes of Interpenetrating Polymer Networks Exhibiting Synergistic Effect of Ionic and Electronic Conductivities

  12. 其混合导电率明显高于离子导电率及电子导电率,即呈现协同效应。

    The mixed conductivity showed an obvious synergistic effect .

  13. 电子导电聚合物在电化学电容器中的应用

    Application of Electronically Conducting Polymer in Electrochemical Capacitors

  14. LiFePO4的离子导电性和电子导电性。

    Ionic conductivity and electronic conductivity of LiFePO_4 .

  15. 芳香族电子导电聚合物的研究进展

    Advances in the Study on Aromatic Electron-conducting Polymers

  16. 芳香族电子导电高分子的应用和进展

    Applications and advances on the aromatic electron-conducting polymers

  17. 电子导电型高分子材料的研究与展望

    Research and development electronic conducting polymer

  18. 对钙钛矿结构氧化物半导体陶瓷中的电子导电机制,也作了进一步的阐明。

    The electron conduction mechanism of semiconducting ceramic oxide with perovskite structure was also explained further .

  19. 二次电子导电摄像管

    Secondary electron conduction camera tube

  20. 最后在整个流场上利用电子导电模型计算喷焰的电磁特性参数。

    Finally , the electromagnetic parameters of the whole plume were calculated with the electron conductive model .

  21. 文中综述了芳香族电子导电高分子的应用和研究进展,指出其存在问题和解决方法。

    The applications and the advances in the study on the main-chain type aromatic electron-conducting polymers were review .

  22. 实验表明,增大压力,滑石的电导率增大,其导电机制为电子导电;

    The results show that the electrical conductivity of talc increases with increasing pressure , and the electrical conduction mechanism in talc is electronic .

  23. 预期这三个模型也可应用于量子化情况自旋分裂,谷分裂和朗道分裂的谷区电子导电边的情况。

    It is predicted thatthese models can be also used to the electron edge of valley region of Landau splitting , spin splitting and valley splitting .

  24. 实验结果表明,纳米金具有更大的比表面积并能起到电子导电通道的作用。

    The results elucidate that colloid nanoparticles can play the role of an efficient electron-conducting tunnel and have a very high ratio of surface to volume .

  25. 具有不同化学性质的多种物系都具有这一特征,包括氧化还原或电子导电聚合物、含有混合价态的过渡金属无机络合物等。

    Such a phenomenon is characteristic of numerous systems with very diverse chemical natures , including redox or electronically conducting polymers , inorganic solids with mixed-valence transition metals .

  26. 对多孔碳材料结构、形貌以及石墨化程度(电子导电性能)的控制合成是材料科学重要的研究课题之一。

    The controllable synthesis of carbon materials with various morphology , structure and the graphitization degree ( electronic conductivity ) is one of the most interesting topics in the materials sciences .

  27. 锡能改变钝化层的电子导电性,通过在不同电位和各种极化时间下电化学阻抗的测量来研究电子导电性与钝化层形成条件的关系。

    Tin could change electronic conductivity of the passivation layer . The relationship between the electronic conductivity and the formation condition of the passivation layer was studied by measuring the electrochemical impedance at different polarization potential and polarization time .

  28. 虽然将转换反应电极材料引入锂离子电池体系看起来非常吸引人,然而真正的应用则被巨大的技术困难所困扰,譬如材料相对较低的电子导电率或者电极设计过程不恰当的配置方式。

    Although the introduction of the conversion electrode materials into lithium-ion batteries might seem quite attractive , implementation is beset with formidable technical difficulties such as intrinsic poor electronic conductivity of the materials or to inadequate means of formulating / configuring the electrodes .

  29. 本文在最后部分,对定氧电池存在的问题及误差来源,特别对固体电解质的电子导电及抗热震性以及提高低含氧量测定的准确度等问题进行了讨论。

    In the last part of the paper , the confronting problems and error sources of the oxygen probes , particularly in connection with the electronic conductivity and thermal shock resistance of the solid electrolyte and means of increasing accuracy in measurement of low oxygen activity , are discussed .

  30. 这是由于p型半导体空穴导电,而n型半导体则为电子迁移导电,使得表面活性氧物种形成机理不同所致。

    These are due to different mechanism of the formation of the partial charged oxygen species on the surface of catalysts .