中孔

  • 网络Mesopore;Mesoporous;mesopores
中孔中孔
  1. 竹炭的BET比表面积和中孔容积越大,饱和吸附量也越大;

    With the increasing of BET surface area and mesopore volume , the saturated adsorption amount increases greatly .

  2. 微孔容积增加25%,中孔容积增加30%,研磨后活性炭电极的比容量达到213.4F/g。

    And the micropore volume increased by 25 % , mesopore volume increased by 30 % , specific capacitance increased to 213 . 4 F / g after milling .

  3. 中孔分子筛MSU是当今认为在稳定性方面很有发展前途的一种催化新材料。

    This thesis emphasized on the preparation of mesoporous molecular sieves MSU .

  4. 水分对中孔沸石分离C8芳烃的影响

    Effects of moisture in separation of c_8 aromatics using medium pore zeolites

  5. 用中孔沸石从C8芳烃分离对二甲苯和乙苯

    Separation of p-xylene and ethylbenzene from c_8 aromatics using medium pore zeolites

  6. 新型中孔多金属氧酸盐复合材料光催化降解染料罗丹明B的研究

    Photocatalytic degradation of dye Rhodamine B in water by novel polyoxometalate composites

  7. 利用XRD、SEM和BET对实验制备的中孔炭进行了分析和表征。

    XRD , SEM and BET were used to analyse the as prepared AC.

  8. 中孔活性炭纤维对VB(12)的吸附性能研究

    The adsorption of vb_ ( 12 ) by mesoporous ACF

  9. BET分析显示掺杂材料以中孔为主。

    BET analysis shows that the mesopore is dominant for Ti-doped silica gel .

  10. 模板剂及Ni掺杂对中孔TiO2材料性能的影响

    Effects of template and Ni Dope on Mesoporous Titania material

  11. 含Bi中孔分子筛(Ⅱ)苯乙烯氧化反应机理及条件的优化

    Bi-Si mesoporous zeolites (ⅱ) Reaction mechanism and optimisation of reaction conditions in styrene oxidation

  12. 以聚氧乙烯十二烷基醚为模板剂,钛酸四丁酯为钛源制备了中孔TiO2,探讨了焙烧温度和掺杂对中孔TiO2结构的影响。

    Mesoporous TiO_2 was prepared using polyoxyethylene-dodecyl-ether as a template and tetrabutyl titanate as a titanium source .

  13. 玻璃珠负载中孔TiO2纳米薄膜光催化研究

    TiO_2 Mesoporous Film Photocatalyst Supported on Glass Beads

  14. 高纯度中孔分子筛MCM-41的合成与表征

    Synthesis and Characterization of High quality Mesoporous Molecular Sieve MCM 41s

  15. 用实验吸附等温线和计算机分子模拟表征中孔分子筛MCM-41

    Characterization of Mesoporous MCM-41 Adsorbents by Computer Simulation and Adsorption Isotherm

  16. 干粉法合成中孔分子筛MCM┐41

    Synthesizing mesoporous molecular sieve MCM 41 via dry powder approach

  17. 中孔沸石新材料MCM-41&Ⅰ.合成、酸性及稳定性

    THE NOVEL MESOPOROUS MATERIAL MCM-41 I.Synthesis , Acidity and Stability

  18. 在蒸气相中合成中孔分子筛MCM-41及其孔结构参数的表征

    Synthesis mesoporous molecular sieve MCM 41 in vapour phase and their porous structure parameters

  19. 中孔分子筛MCM-41的合成及催化性能研究进展

    Research Progress of Synthesis and Characterization of MCM-41

  20. 新型中孔分子筛MCM-41研究新进展

    Advances in Mesoporous Molecular Sieve MCM - 41

  21. 全硅MCM-41中孔分子筛的合成

    Synthesis of Silica Mesoporous Molecular Sieve MCM-41

  22. MCM-41中孔分子筛修饰电极对铁(Ⅱ)和钌(Ⅱ)的1,10-氮杂菲配合物的电化学响应

    Electrochemical Characterization of Iron (ⅱ) and Ruthenium (ⅱ) 1,10 Phenanthroline Complexes on MCM 41 Mesoporous Molecular Sieve Modified Electrode

  23. 采用电化学噪声技术,研究了铝合金2024-T3在NaCl溶液中孔蚀过程的电化学噪声特征。

    Pitting corrosion of aluminum alloy 2024-T3 in NaCl solution was studied using electrochemical noise technique .

  24. 以含Cu的中孔分子筛(Cu-HMS)为催化剂,研究异丙苯的催化氧化。

    Catalytic oxidation of cumene was investigated using hexagonal mesoporous silica molecular sieve with Cu ( Cu-HMS ) as catalyst .

  25. 中孔分子筛MCM-48的合成研究

    Synthesis of Mesoporous Molecular Sieve MCM - 48

  26. SAXS、XRD和BET结果表明,制得的碳管具有无定形的管壁而且含有一定的中孔结构,碳管以六方堆积方式紧密排列。

    SAXS , XRD and BET results revealed that the tubes were amorphous and aggregated by a compact hexagonal arrangement with a highly ordered mesoporous structure .

  27. 中孔复合锆-铝氧化物微球的制备及其正相色谱性能研究中孔沸石新材料MCM-41&Ⅰ.合成、酸性及稳定性

    Preparation of Mesopore Zirconia-Alumina Composite and Its Application to Normal HPLC Support THE NOVEL MESOPOROUS MATERIAL MCM-41 I.Synthesis , Acidity and Stability

  28. 硅钨杂多酸在中孔全硅分子筛HMS上的固载及其催化性能

    Catalysts comprising 12 silicotungstic acid immobilized on a hexagonal mesoporous silicas ( hms ) and their catalytic properties

  29. 有机-无机片段自组装过程显示TiO2中孔分子筛的合成按照协同作用机理(CFM)进行;

    Inorganic-organic self - assembling process revealed that TiO2 mesoporous molecular sieves was synthesized according to cooperative formation mechanism ( CFM ) .

  30. 在种类繁多的中孔分子筛中,具有六方对称性的MCM-41是最具应用前景而被研究最多的中孔材料之一。

    In many mesoporous molecular sieves , hexagonally symmetrical MCM-41 is one of the materials studied most commonly for its most applications .