富勒烯

  • 网络fullerene;buckminsterfullerene;Fullerence
富勒烯富勒烯
  1. 大于C(60)/C(70)富勒烯的分子构型

    The Molecular Configuration of Fullerene More Than C 60 / C 70

  2. 用一系列手段对富勒烯与GO之间的非共价结合进行了表征。

    A series of methods were used to characterize the combination of fullerene and GO .

  3. 哑铃状富勒烯C(70)-聚苯乙烯高分子衍生物的合成与表征

    Synthesis and Characterization of Dumbbell-like C_ ( 70 ) Polystyrene Derivatives

  4. 羧酸富勒烯C3的合成及其保护辐射损伤效应

    Synthesis of carboxyl-fullerene C_3 and its radio-protection effects in cell

  5. 一些富勒烯C(60)双加成物稳定性的理论研究

    Theoretical Studies on the Stabilities of Some C_ ( 60 ) Bis-adducts

  6. 活性聚合改性富勒烯C(60)在新型聚合物材料中的应用

    Application of modified fullerene using living / controlled polymerization in new polymer materials

  7. C(100)富勒烯分子静电势的理论研究

    Theoretical studies on the molecular electrostatic potential of the C_ ( 100 ) fullerenes

  8. 富勒烯C(60)硫桥键联四硫富瓦烯衍生物的理论研究

    Theoretical Study of the [ 60 ] Fullerene Sulfur-bridge Covalent Bond Linked Tetrathiafulvalene Derivatives

  9. 然而自从以C(60)位代表的富勒烯的被发现以后,三维芳香性逐渐成为人们的研究热点。

    After C60 was discovered in 1985 , three-dimensional aromaticity has been the issue .

  10. 压缩变形对C(20)富勒烯分子电子传输特性的影响

    Characteristics of Electronic Transmission on Au Electrode-Compressed C_ ( 20 ) Fullerene-Au Electrode Systems

  11. 富勒烯氯化物在C(60)化星形高分子材料合成中的应用

    Application of Chlorided Derivationes of Fullerenes in Synthesis C_ ( 60 ) Bonded Star-shaped Polymer

  12. C(60)衍生物与C(60)混合物中富勒烯的生长研究

    Formation of Fullerenes in C_ ( 60 ) Derivatives and C_ ( 60 ) Mixtures

  13. 苝醌/富勒烯C(60)超分子与电子给体的电子转移作用

    Photoinduced Electron Transfer between Perylenequinonoid / Fullerene C_ ( 60 ) Supramolecule and Electron Donor

  14. 离子辐照聚乙烯合成小于C(60)的富勒烯分子晶体

    Synthesis of fullerene crystals smaller than c_ ( 60 ) by ion beam irradiation of polyethylene

  15. 富勒烯C(36)等电子体C(34)BN异构体的结构及其相对稳定性理论研究

    Theoretical Studies on Structures and Stabilities of C_ 34 BN Isomers

  16. 富勒烯(C(60))-甘氨酸衍生物对小鼠骨肉瘤细胞生长的影响

    Effect of Fullerenes ( C_ ( 60 )) - glycin Derivatives on the Mouse Osteogenic Sarcoma Cells Growth

  17. C(36)富勒烯氮杂环衍生物的分子第一超极化率理论研究

    Theoretical Study on the Molecular First Hyperpolarizability of the C_ ( 36 ) Fullerene Derivatives With Nitrogen Heterocycle

  18. Ar掺杂碳纳米豆荚中C(60)富勒烯的碰撞与能量传递

    Collision and energy-transmission of C_ ( 60 ) fullerenes in Ar doped nano-peapod

  19. N原子掺杂对富勒烯C(20)分子电子结构与传输特性的影响

    Impact of electronic structure and transmission characteristic based on N-doping in the C_ ( 20 ) fullerene molecule

  20. 无机类富勒烯(MS2)纳米化合物的研究

    Study on Inorganic Fullerene-like ( MS_2 ) Nano-compounds

  21. 高效液相色谱分析富勒烯中C(60)和C(70)的新方法

    A new method for analysis of c_ ( 60 ) and c_ ( 70 ) in fullerenes by high performance liquid chromatography

  22. 水溶性富勒烯(C(60)/C(70))-OP的合成及其润滑性能的研究

    Sythesis of Water Soluble Fullerene ( C_ ( 60 ) / C_ ( 70 )) - OP and study of its lubricity

  23. 洋葱状富勒烯的提纯及XRD结构精修

    Purification of Onion Like Fullerenes and XRD Structural Refinement

  24. 基于光致电子转移机理(PET),荧光素的荧光被富勒烯猝灭。

    Based on photoinduced electron transfer ( PET ), fullerene can quench the fluorescence of fluorescein .

  25. [60]富勒烯衍生物的对称性、碳笼结构与~(13)cNMR谱

    Symmetry , Cage Structure of [ 60 ] Fullerene Derivatives and ~ ( 13 ) C NMR Spectroscopy

  26. 用激光光解时间分辨瞬态谱研究了N-甲基-2-(4'-N-乙基咔唑基)-富勒烯吡咯烷的分子内电荷转移过程,在近红外区观测到了长寿命电荷分离态C?

    Photoinduced intramolecular electron transfer process from C60 moiety to carbazole moiety has been studied by nanosecond laser flash photolysis . The charge-separated state C ?

  27. 这是提高C(60)荧光量子产率的新方法,并为构造以富勒烯为基础的发光材料提供了新思路。

    This provides an approach to the observation of strong fluorescence of C60 and the great possibility of the fabrication of novel fullerene-based luminescent materials .

  28. 本文讨论富勒烯的分离提纯,手征性结构的发现,C(78)的分子结构,C(84)的异构体等问题。

    This paper discusses the separation and purification of fullerene , the discovery of chiral configuration , molecular structure of C78 , isomer of C84etc .

  29. 硼氮掺杂富勒烯C(34)BN的分子第一超极化率理论研究

    Theoretical Study on the Molecular First Hyperpolarizability of B and N-Doped Fullerene C_ ( 34 ) BN

  30. 研究表明,由于金胶的表面作用,造成了富勒烯能级简并度的降低,从而使C(60)分子的拉曼激活模式产生分裂,并观察到了C(60)分裂的新的振动模式。

    The degeneracy of fullerene were reduced due to the interaction between fullerene and gold particle surface resulting in the splitting of the Raman active modes .