碳材料

  • 网络carbon material;carbonaceous material
碳材料碳材料
  1. 结果显示,木炭为无定形的非晶碳材料,多孔SiC由主晶相?

    The results showed that CB-template was amorphous carbon materials .

  2. 因而,深入研究生物大分子DNA与碳材料之间的相互作用对研发新型碳纳米载体是非常重要的。

    Therefore , it was very important to deeply study the interactions between the biological molecule DNA and carbon materials for exploring new carbon nanometer carrier .

  3. 碳材料的Raman光谱表征与探讨。

    Raman spectrum inspection of deposited carbon material .

  4. Si粉和Al粉对N2保护热处理铝碳材料性能和显微结构的影响

    Influence of aluminum powder and silicon powder on properties and microstructure of alumina graphite materials heat-treated in N_2 atmosphere

  5. 碳材料反射中子的~(238)U裂变反应率测量和计算

    Measurement and Calculation of ~ ( 238 ) U Fission Reaction Rates Induced by Neutrons Reflected by Carbon Material

  6. 为了提高碳材料的抗氧化性能,采用料浆烧结法在石墨和C/C复合材料上制备了SiC抗氧化涂层。

    SiC coating was prepared on graphite and carbon / carbon composites using slurry sintering method to improve oxidation resistance .

  7. 研究表明:不同碳材料制备的PANI/C复合材料结构不同,PANI在碳材料中的聚合由于受碳材料结构限制结晶度降低并且特征官能团的红外吸收峰也因此有所变化。

    The results show that the crystallinity of PANI in thePANI / C composites were decreased due to the limitation of nano-pore system in the carbon material .

  8. HRTEM结果表明催化剂上生长的碳材料主要为纳米碳纤维和多壁碳纳米管。

    The results of HRTEM showed the solid carbon products were carbon nanofibers ( CNFs ) and multi-walled carbon nanotubes ( MWCNTs ) .

  9. 通过实验比较研究了不同碳材料放电性能、对材料不同预处理手段的效果以及采用KCl作成孔剂对阴极膜放电性能的影响,结果表明预处理有效地提高了阴极的放电能力。

    Improvement in discharging property of cathode film when KCl used as a kind of pore forming material is found . Results show the cathode discharge capability is effectively increased .

  10. 研究结果表明,Ar离子束与层状碳材料作用后,构成层状结构的以sp2杂化为基础的C-C共轭π键被Ar离子束打断,形成了新的C-C键。

    The results showed tha the conjugated π bond of the layered Carbon materials may be broken by absorbing Ar ion beam energy and the interaction may result in the destruction of the carbon layered structures .

  11. 最后,将按照最优配比制备出的释碳材料应用于曝气生物滤池中,研究其作为BAF填料的可行性,以及BAF的脱氮效果,并考察运行参数对脱氮效果的影响。

    At last , nitrogen removal efficiency of BAF with the CRM prepared in accordance with the optimum mix and the influence of operation parameters on nitrogen removal efficiency was investigated .

  12. 3.0mA/cm2电流密度下,复合材料电极比容量高达448.7F/g,比原碳材料提高60%。

    PANI / C electrode has a specific capacitance of 448.7F/g under the current density of 3mA / cm2 , increased by 60 % than activated carbon electrode .

  13. 镍催化甲烷裂解制备新型纳米碳材料

    Preparation of Novel Nano-carbon Materials by Ni Catalysed Decomposition of Methane

  14. 碳材料嵌锂行为的研究方法

    Method for Research on Performance of Intercalation of Li-ion in Carbon Materials

  15. 铝碳材料与稀土钢夹杂物的反应

    Reaction of alumina-carbon composites with inclusions in rare earth steel

  16. 本论文主要研究以聚酰亚胺薄膜为原料制备碳材料,通过层压、碳化等工艺,制备出表面光洁、完整的碳膜。

    The preparation of carbon material derived from polyimide films have studied .

  17. 掺磷碳材料的制备及其嵌锂行为

    Preparation of Phosphorus-Doped Carbon and its Performance of Lithium Intercalation

  18. 三维大孔氮化碳材料的制备及其血液相容性

    Synthesis of 3D macroporous carbon nitride and its blood compatibility

  19. 电极材料主要有碳材料、金属氧化物和导电聚合物。

    Electrode materials mainly includes carbon materials , metal oxide and conducting polymer .

  20. 丰富和发展了还原催化热解有机物制备微尺度碳材料的方法。

    A reductive and catalytic pyrolysis method was developed to prepare carbon materials .

  21. 碳材料的抗氧化是含碳材料领域研究的重点。

    Carbon material anti-oxidation is a key topic in carbonaceous material research domain .

  22. 催化剂对纳米聚团床法制备的纳米碳材料形貌的影响

    Effect of Catalyst on Morphology of Carbon Nano-materials Prepared in a Nano-agglomerate Bed

  23. 这一发现对现代材料科学技术、碳材料科学和两千多年前中国木炭烧制技术等考古学研究很有意义。

    This found is important to materials science , carbon and archeological studies .

  24. 通过这些改性,碳材料的表面结构得到了改进,电化学性能能够得到明显提高。

    Through these modifications , the surface structures of the carbon anodes are improved .

  25. 纳米碳材料的合成及其影响因素

    Synthesis of nano carbons and influencing factors

  26. 锂离子二次电池负极用碳材料及其储锂机理

    The carbonaceous material for negative electrode of lithium secondary battery and the mechanisms of lithium storage

  27. 引入的共聚单元较易降解,使碳材料的孔隙结构有明显的增加;

    The introduced styrene unit is degradable and causes more pore structure in the obtained carbons .

  28. 碳材料作为锂离子电池负极材料,具有很好的循环寿命和安全性。

    Carbon materials are utilized as anode materials for the improvement of safety and cycle life in lithium batteries .

  29. 研究了以聚4-乙烯吡啶为基体所得碳材料作为锂离子二次电池负极的电化学性能。

    Electrochemical properties of carbon anode based on poly ( 4-vinyl pyridine ) for lithium ion secondary battery were studied .

  30. 研究了非晶态碳材料板碰撞下的一维应变动态响应。

    The dynamic response of vitreous carbon to uniaxial strain loading has been investigated by means of the plate impact experiments .