前驱体

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前驱体前驱体
  1. 二元金属类水滑石的合成及其作为前驱体对NOx的吸附性能研究

    Studies on the Preparation and Adsorption as Precursor for Nitrogen Oxides of Diatomic Metal Hydrotalcite-like Compounds

  2. 间接前驱体为:Ni和Ni2+;

    Indirect precursor are Ni and Ni2 + .

  3. 以β-Co(OH)2为前驱体合成LiCoO2的研究

    Synthesis of LiCoO_2 Using β - Co ( OH ) _2 as Precursor

  4. 煤及煤焦气化过程中NOx前驱体释放规律研究

    Study on the release of no_x precursors during coal and its char gasification

  5. 前驱体LixMoS2的制备及其光谱分析

    Preparation of Premonitory Li_xMoS_2 and Its Spectral Analysis

  6. 不同处理条件对前驱体转变成ZrW2O8的影响

    Effect of different treatment conditions on Transformation of precursor to zrw_2o_8

  7. 稀土配合物作为前驱体合成Y2O3∶Eu纳米材料

    Synthesis of y_2o_3 ∶ eu nanocrystalline by complex precursors

  8. 用离子液前驱体合成高荧光性能的ZnO和CdS纳米材料

    Highly luminescent ZnO and CdS nanostructures prepared by ionic liquid precursors

  9. ZnO纳米粒子与沸石组装体系前驱体的制备条件研究

    Preparation Condition of Nano-particle ZnO and Zeolite Composite Precursor

  10. 结果表明:通过前驱体pH的控制可得到均匀的溶胶和凝胶。

    The results show that the uniform sol and gel were obtained by adjusting pH value without any precipitation .

  11. 用尿素作沉淀剂制备不同CeO2前驱体

    Preparation of different CeO_2 precursors with precipitator urea

  12. 优化前驱体Al(OH)3的制备方案。

    Firstly , the method to prepare Al ( OH ) _3 which would act as the precursor was optimized .

  13. 对新型的炭材料的有机前驱体-RF气凝胶的合成工艺进行了探索研究。

    Abstract : The synthesis processe of organic precursor-RF aerogel of new carbon material was studied .

  14. 以RuCl3为前驱体的无氯Ru/Al2O3氨合成催化剂的制备

    Preparation of the chlorine-free Ru / Al_2O_3 ammonia synthesis catalyst with RuCl_3 as the precursor

  15. 前驱体溶液配比及pH值对凝胶-燃烧合成纳米MgO颗粒的影响

    The effect of composition and pH value of precursor solution on gel-combustion synthesis of MgO nanocrystalline powders

  16. 加料方式对CuO/ZnO/Al2O3系催化剂前驱体性质的影响

    Influence of precipitation method on the properties of precursors of CuO / ZnO / Al_2O_3 catalysts

  17. 研究了柠檬酸(CA)/乙二醇(EG)(质量比)、pH值对前驱体溶胶稳定性的影响。

    The effects of CA / EG and pH value on the stability of the precursor sol were investigated .

  18. 利用IR、XRD、TEM分析了前驱体的化学组成、物相变化以及形貌;

    The composition , morphology and phase transformation of precursor were analyzed by IR , XRD , TEM .

  19. 本文以氧化石墨烯(GO)为前驱体,采用不同的方法制备杂原子掺杂石墨烯,并对其结构和性能进行了系统的研究。

    In this thesis , we choose graphene oxide ( GO ) as precursors to prepare heteroatom doped graphene by different methods , and systematically studied their structures and properties .

  20. 丙烯腈聚合物(PAN)是高性能碳纤维的主要前驱体。

    Acrylonitrile polymer ( PAN ) is the main precursor for manufacturing the high strength carbon fiber .

  21. Y2O3掺杂稳定ZrO2配合物的前驱体分子结构及小尺寸效应

    Precursor Structures and Small Size Effect for Y_2O_3-Doped ZrO_2 Complex

  22. 胶溶剂的添加对氧化铝及其前驱体粉体特性有显著改变,胶溶剂种类、pH值和添加量不同,影响不同。

    The characteristic of alumina and hydrated alumina powders was greatly influenced by adhesive solvents with different species , content and pH value .

  23. 酚醛树脂前驱体CC复合材料研究&硼酚醛树脂理化性能分析及固化、热解过程研究

    Physical-chemical properties and curing pyrolysis processes of boron phenolics precursor in carbon carbon composites

  24. 通过调节反应温度,前驱体比例,我们可以优化实验条件,制备得到高质量的CdS和ZnS纳米晶。

    Different reaction temperatures and precursor ratios were tested to optimize synthesis conditions .

  25. 铟锡氧化物(ITO)前驱体的相演变规律研究

    Phase Evolutions of Co-precipitated Indium - tin Oxide Precursors

  26. 提出了一种以TiSO4为前驱体的制备锐钛矿型纳米TiO2的液相沉淀法。

    A liquid-phase precipitation method for anatase nanoparticle titania was developed using titanium sulphate as the precursor .

  27. 结果表明,微量掺杂对材料的粒径、振实密度和形貌影响不大,Al元素均匀分布在前驱体颗粒表面。

    The results showed that small doping of Al element had no effect on the particle size , tap-density and morphology of the material .

  28. 稀土配合物前驱体热分解法合成Y2O3:Eu~(3+)纳米材料

    Synthesis of Y_2O_3 : Eu ~ ( 3 + ) nanocrystalline by thermal decomposition of rare earth complex precursors

  29. 首次采用配置溶胶并进行喷雾干燥来制备(W,Ni,Fe)前驱体复合氧化物粉末。

    ( W , Ni , Fe ) precursor composite oxide powders were first synthesized by preparation of solution colloid and spray drying .

  30. 结果表明,前驱体碳化复合技术制备的TiFeC系反应喷涂复合粉末中C/Ti原子比是影响涂层相组成、显微结构和硬度的关键因素。

    The results show that C / Ti atomic ratio has strong influence on the component , microstructure and hardness of TiC / Fe composite coating .