graphene

美 [ˈɡræfiːn]英 [ˈɡræfiːn]
  • n.石墨烯(由碳原子构成的单层片状结构的纳米材料)
graphenegraphene
  1. Preparation and Supercapacitor Properties of Graphene 、 Graphene / Carbon Nanotubes

    石墨烯、石墨烯/碳纳米管的制备及其超级电容器性能研究

  2. Graphene , a two-dimensional new carbon material with single atomic layer , has many unique physical and chemical properties .

    石墨烯(graphene)是一种具有二维平面结构的新型碳纳米材料,它特殊的单原子层结构使其具有许多独特的物理和化学性质。

  3. Comparative Study of Physical Properties between Graphene and Carbon Nanotubes

    石墨烯与碳纳米管的物理特性比较研究

  4. The first chapter introduces briefly the research history and the present situation in graphene .

    第一章简要介绍了graphene的研究历史与现状。

  5. Through the high temperature and high pressure test , graphene can be hydrogenated .

    利用高温高压实验对合成的样品进行了氢化处理。

  6. Numerical Simulation of Temperature Dependence of Tensile Mechanical Properties for Single Graphene Sheet

    石墨烯拉伸力学性能温度相关性的数值模拟

  7. Effect of the tensile force on the electronic energy gap of graphene sheets

    拉伸作用对单层石墨片电子能隙的影响

  8. Comparing the different process for free-standing graphene paper , and modified the preparation method .

    详细研究了各种石墨烯自支撑膜的制备方法,对方法进行了改良。

  9. Researching graphene epoxy composite material has a very broad prospects .

    因此研究石墨烯环氧树脂复合材料具有很广阔的前景。

  10. Carbon material graphene and its application in electrochemical capacitor

    碳材料石墨烯及在电化学电容器中的应用

  11. The graphene / PLA field emission characteristics under electric field induced is researched .

    研究电场诱导对石墨烯/聚乳酸场发射特性的影响。

  12. Graphene films were synthesized by using microwave chemical vapor deposition method in this paper .

    本文利用微波等离子体化学气相沉积方法制备了石墨烯薄膜。

  13. Preparation , Characterization and Annealing Temperature Dependent of Raman Property of Graphene

    Graphene制备、表征以及Raman光谱对退火效应的研究

  14. Epitaxial Growth and Structure Characterization of SiC Film and Fabrication of Graphene

    碳化硅薄膜的外延生长、结构表征及石墨烯的制备

  15. Computational Studies on Tuning Electronic and Magnetic Properties of Graphene Nanoribbons

    石墨烯纳米带的电学和磁学性能调控的计算研究

  16. Graphene receives much research attention due to its remarkable properties since the discovery in 2004 .

    石墨烯自2004年被发现以来便以其优异的性能而引起了广泛关注。

  17. Lattice Dynamics and First Principle Study of Graphene Nanoribbons

    石墨带的晶格动力学和第一性原理研究

  18. The results showed that the ideal conductivity was reached by adding low levels of graphene .

    结果发现,加入含量很低的石墨烯,就能达到理想的电导率。

  19. Graphene has attracted wide attention for both fundamental physics and potential application in electronics .

    石墨烯在基础物理学研究及电子学应用方面的潜能吸引了很多人的关注。

  20. Graphene has become a concern of carbon family new materials in recent years because of its excellent performance .

    石墨烯因其优异的性能成为了近年来颇受关注的碳家族新材料。

  21. Tight binding studies on the electronic structure of graphene nanoribbons

    石墨烯纳米带电子结构的紧束缚法研究

  22. Strain rate dependences of tensile failure process for single graphene sheet : A molecular dynamics study

    单层石墨烯薄膜拉伸破坏应变率相关性的分子动力学研究自动薄层[膜]涂布器

  23. Effects of the Defect and Dopant on in Adsorption on Graphene

    缺陷与杂质对In在graphene上吸附影响的研究

  24. Many researches show that graphene has excellent electronical , thermal , magnetic and mechanical properties .

    已有的研究表明石墨烯具有优异的电学、热学、磁学和力学性能。

  25. Based on the tight-binding model , two typical graphene nanoribbons are studied deeply .

    我们根据紧束缚方法对两种主要类型的石墨烯纳米带作了详细研究。

  26. Recently , graphene , as one of new carbon materials , has attracted a great deal of attention .

    近年来,石墨烯作为一种新型碳纳米材料,引起人们的极大关注。

  27. We also fabricate a tunable cavity based on graphene whose resistance could be tuned .

    最后制备了基于石墨烯电导率可调特性的谐振腔。

  28. Besides potential applications in nano devices , graphene also is a good candidate for catalyst support .

    石墨烯除了在纳米器件中具有潜在的用途外,它也是催化剂载体的优秀候选材料。

  29. The nature of graphene ribbon has a close relationship with the boundary structure and morphology .

    石墨烯带的性质与其边界结构及形貌都有密切关系。

  30. In addition , nitrogen-doped graphene achieved using our approach contain abundant pore structures .

    此外,该方法合成的氮掺杂石墨烯拥有丰富的孔结构。