多孔膜

  • 网络porous membrane
多孔膜多孔膜
  1. 采用交联的方法制得的多孔膜离子电导率可达5.5mS/cm。

    The ionic conductivity of the crosslinked porous membrane can reach to 5.5 mS / cm .

  2. 相转化法制备改性聚偏氟乙烯(PVDF)多孔膜的研究

    Study on Modification of PVDF Porous Membrane Prepared by Phase Inversion

  3. 聚丙烯酸接枝型聚偏氟乙烯多孔膜的pH值感应开关特性

    PH-responsive gating characteristics of paac-grafted porous polyvinylidene fluoride membranes

  4. CdS纳米微粒的聚四氟乙烯多孔膜法制备及其表面修饰

    Preparation of CdS Nanoparticles via Porous PTFE Membrane and Their Surface Modification

  5. 充电参数对PTFE多孔膜电荷稳定性的影响

    Influence of Poling Parameters on Charge Stability of Porous PTFE

  6. 最后,讨论了在硫酸电解液中TiO2多孔膜的形成机制。

    Furthermore , the forming mechanism of TiO2 porous films in sulphuric acid is discussed .

  7. 纳米TiO2/丝素蛋白多孔膜的体外降解性能

    Preparation and In-vitro Degradation of Nano-TiO_2 / Silk Fibroin Porous Films

  8. 太阳能电池中纳米TiO2多孔膜的制备

    Preparation of the porous nano - TiO_2 film for solar cells

  9. 液相沉积法制备TiO2多孔膜沉积量的计算

    Calculate deposited quantity of TiO_2 porous membrane prepared by liquid deposition production

  10. 染料敏化TiO2纳米晶多孔膜光电化学池的性质研究

    Properties of the Dye-sensitized Nanocrystalline TiO_2 Mesoporous Photoelectrochemical Cells

  11. 电解液对纯钛表面TiO2多孔膜形态及晶型的影响

    Effect of electrolyte on morphology and crystallization ofTiO_2 porous film on pure titanium

  12. TiO2纳米晶多孔膜的电荷传输特性

    Charge Transport Properties of TiO_2 Nanocrystalline / Nanoporous Film

  13. 抗体固载于TiO2多孔膜的压电免疫型细菌传感器

    Piezoelectric immunosensor for detection of bacteria by immobilizing antibodies on TiO_2 porous films

  14. 表明BPANN是硫酸阳极氧化制备多孔膜孔有序度的较好的预测模型。

    The result shows that BPANN is a good model to predict the hole ordering for PAA film in sulphuric acid .

  15. PTFE多孔膜驻极体电荷储存稳定性的机理研究

    A Study of Charge Storage Stability Mechanism for Porous Polytetrafluoroethylene ( PTFE ) Film Electret

  16. 纳米晶体TiO2多孔膜的制备、性能及其在太阳能电池中的应用

    Preparation and virtues of nanocrystalline tio_2 porous film and its application in solar cell

  17. 阳极氧化制备TiO2纳米多孔膜

    Preparation of nano-porous TiO_2 film by anodic oxidation

  18. 天然色素敏化TiO2多孔膜太阳能电池的研究

    Study on Dye-Sensitized Porous TiO_2 Film Solar Cells

  19. CdSe敏化TiO2纳米晶多孔膜电极的制备及其光电性能研究

    Preparation and photoelectrochemical performance of CdSe dots sensitized nanocrystalline TiO_2 film electrode

  20. PTFE多孔膜和典型薄膜驻极体电荷贮存寿命的比较研究

    A comparative study of charge storage lifetime among porous ptfe , and four typical film electrets

  21. PS胶晶模板制备及组装SnO2多孔膜的研究

    Studies on Preparation of PS Colloid Crystal Templates and Assembly of SnO_2 Porous Films

  22. 研究了经单向机械拉伸形成的非极性空间电荷型薄膜驻极体聚四氟乙烯(PTFE)多孔膜的压电性。

    Piezoelectricity of non-polar space charge electret , porous PTFE film with unidirectional mechanical stretch was studied .

  23. 通过两种方法改性PVdF多孔膜,制备改性PVdF多孔凝胶聚合物电解质。

    Modified PVdF microporous gel polymer electrolytes with enhanced properties were prepared by two methods .

  24. 通过对TiO2多孔膜阳极氧化制备工艺的研究,提出了其成膜机理。

    Through study of the preparation of TiO2 porous film by anodic oxidation , the forming mechanism of the porous film is put forward .

  25. 最后对用于DSSC的纳米TiO2多孔膜的发展方向进行了分析与展望。

    Furthermore , the way forward for this ne TiO_2 porous films is analyzed and suggested at last .

  26. 研究了在一定光强下,一定粒径的TiO2纳米多孔膜电极的厚度与光电氧化甲醇的稳态光电流的关系。

    The dependence of photo electric catalytic oxidation current on the thickness of porous TiO 2 nanometer thin film electrodes is investigated under constant illumination .

  27. 方法:将PTFE多孔膜分别在室温、150℃和250℃下通过恒压电晕充电制备成驻极体;

    Methods : Porous PTFE films were prepared by constant voltage corona charging at room temperature , 150 ℃ and 250 ℃, respectively .

  28. 文章指出获得具有好的光收集效率、快速的电荷传输以及优越的抑制电荷复合性能的多孔膜将是未来TiO2光阳极研究的方向。

    Fabricating the TiO_2 porous films with excellent light harvesting , quick charge transport and efficient suppression of charge recombination is the purpose of further development .

  29. 采用浸没沉淀法制备了五组不同质量分数的TPU多孔膜。

    TPU porous membranes were prepared by immersion precipitation with five different mass fraction in casting solution .

  30. 研究结果指出:和PP蜂窝膜驻极体相比,PTFE多孔膜驻极体呈现出突出的电荷储存和压电活性的温度稳定性;

    Our study results point out that compared with PP cellular film electret , voided PTFE electret has outstanding temperature stability for both charge storage and piezoelectric activity .