首页 / 词典 / good

cus

  • 中央处理器;【医】【=catheterized urine specimen】导尿标本
cuscus
  1. In addition , the growth mechanism of the CuS microspheres was also proposed .

    另外,还讨论了CuS微米球可能的生长机制。

  2. A new process to extract copper from CuS ore

    硫化铜矿中提取铜的新方法研究

  3. Carrier Transport in Photovoltaic Devices Based on Polymer / CuS Nanoparticles Composites

    CuS纳米掺杂聚合物光伏器件中的电荷传输

  4. The Studies of the Structure and Conduction Mechanism on Polyacrylonitrile Surface Modified by CuS

    CuS表面改性聚丙烯腈纤维的结构及导电机理的研究

  5. Research status of preparation and applications of CuS nano-powder

    纳米硫化铜粉体的制备与应用研究现状

  6. The initial discharge capacity of CuS is much higher than that of previous reports .

    该材料的首次放电容量远高于文献中的报道。

  7. A Comparative Study of the Evaluation of MRI and CUS in Diagnosing Cardiovascular Diseases

    MRI和CUS对心血管疾病诊断价值的对比研究

  8. Exploration on Cus to mer Expectation Management in Service Marketing

    刍议服务营销中的顾客期望管理

  9. Synthesis of Cus Nanorods by Self-Assembly in Polymer Pattern System

    PAA模板体系中CuS纳米棒的自组装合成

  10. The last step is to build the quality culture and cus to mer culture .

    六是建立质量文化和顾客文化。

  11. Synthesis and Characterization of In-situ Growth CuS Nanoparticles in Polyelectrolyte Molecular Deposition Films

    聚电解质原位生长CuS纳米粒子分子沉积膜的制备及表征

  12. The results show that the existence of CuS nanoparticles can reduce fretting wear evidently .

    结果表明:硫化铜纳米粒子能显著降低微动磨损体积,随着纳米粒子含量增加,微动磨损量降低;

  13. Analysis and Discussion of Products that CuS Dissolves in HNO_3

    关于CuS在HNO3中溶解产物的分析与讨论

  14. Recovery of Copper from CuS by Catalytic Calcination Process with Na_2CO_3 as Catalyst

    Na2CO3催化焙烧法回收CnS中的铜

  15. Syntheses of water-soluble CuS nanocrystals and interaction between biological macromolecule function

    水溶性CuS纳米晶的合成及其与生物大分子的作用

  16. Cu Powder Preparation by Direct Hydrogen Reduction of Cu_2S and CuS Slurries

    铜硫化物直接水浆氢还原制备铜粉

  17. Preparation of semiconductor CuS nanoparticles by microwave irradiation

    微波介电加热合成半导体CuS纳米粒子

  18. Perhaps a thousand cus would do .

    也许有1000法郎就能解决问题。

  19. Using the luminescent properties of Ag / CuS nanocomposites , the time course cell uptake is also carried out .

    利用Ag/CuS纳米复合物的荧光性质,我们研究了其在前列腺肿瘤细胞内的时程吸收。

  20. But photocatalytic oxidation rate of CuS does not increase with the photocatalytic time for the effect of forming sulfur .

    但是由于覆盖在催化剂的表面的单质S对光催化反应的阻碍作用,致使TiO2对CuS的氧化率并不随着反应时间的延长而增加。

  21. Role of CuS in Formation Nucleation of Acicular Ferrite

    CuS在针状铁素体形核过程中的作用

  22. CuS was converted to Cu by catalytic calcination process with Na_2CO_3 as catalyst .

    用Na_2CO_3催化焙烧法将CuS转化为Cu。最佳的转化条件;

  23. Preparation and Application of CuS / Cu ~ ( 2 + ) Nanoparticles as a Resonance Light Scattering Probe

    利用CuS/Cu~(2+)纳米溶胶作为共振光散射探针检测γ-球蛋白

  24. The kinetics of second stage leaching of CuS could be expressed by a shrinking core model with a solid product layer .

    CuS浸取反应动力学符合生成固体产物层的收缩核模型。少量铁离子对强化辉铜矿氧压酸浸过程和合理利用元素硫具有重要意义。

  25. Fretting wear behavior of CuS nanoparticles in urea grease was studied in fretting wear tester .

    在微动磨损试验机上考察了含有硫化铜纳米粒子脲基脂的微动磨损性能。

  26. In-situ Synthesis and Tribology Property of Oleic Acid-modified CuS Nanoparticles

    油酸修饰CuS纳米颗粒的原位合成及其摩擦学性能

  27. Objective Explore an non-operation method tot neat the Simple node of local thyreon cus .

    目的探索地方性甲状腺肿伴有单纯性结节的非手术疗法。

  28. Controlled synthesis of different CuS nanostructures can also be achieved with other ligands as assistant by one-pot synthesis .

    并通过选择其它的配体作为辅助剂,实现对不同的CuS纳米结构的控制合成。

  29. CuS nanostructures can also be synthesized with isonicotinic acid as assistant by one-pot synthesis .

    同时我们把异烟酸作为辅助剂,通过一步法来合成CuS纳米结构。

  30. LIF Spectra of CuS and FeS & Transient MIR Spectroscopy of Macromolecular

    CuS,FeS的LIF光谱和液相大分子瞬态中红外光谱研究