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1. The isotopic effects of C-13-labeled large carbon cage (C-70) full.. [442]
2. First Endohedral Metallofullerene-Containing Polymer: Preparation .. [342]
3. Surface Modification Induced Shielding Effects on Electron Orbital.. [340]
4. Gd@C-82(OH)(22) harnesses inflammatory regeneration for osteogenes.. [217]
5. Polyhydroxylated fullerenols regulate macrophage for cancer adopti.. [177]
6. 富勒烯衍生物的连续化制备系统及制备方法 [161]
7. 碳棒及碳棒提供装置 [152]
8. 碳纳米材料自动化合成设备及其控制装置与控制方法 [146]
9. An organic-inorganic hybrid perovskite logic gate for better compu.. [146]
10. Quantitative analysis of Gd@C-82(OH)(22) and cisplatin uptake in s.. [145]
11. 高效液相色谱流动相循环使用装置 [143]
12. Novel carbon nanohybrids as highly efficient magnetic resonance im.. [142]
13. Gd@C-82(OH)(22) Nanoparticles Constrain Macrophages Migration Into.. [140]
14. Potent Angiogenesis Inhibition by the Particulate Form of Fulleren.. [136]
15. Isomers of IC(70)BA and Their Photovoltaic Performance in Polymer .. [134]
16. Facile synthesis of isomeric fullerene derivatives as acceptors fo.. [134]
17. 无氧自动连续离心过滤机 [127]
18. Gadolinium metallofullerenol nanoparticles inhibit cancer metastas.. [122]
19. 纳米TiO2分散及稳定性研究 [122]
20. Synthesis and Characterization of C-70-Corrole-A New Electron Tran.. [121]
21. UCNP@SiO2@Gd@C82衍生物纳米复合物的合成及其荧光/核磁双模式成像应用.. [118]
22. 碳棒活化器 [117]
23. Nanoparticles with High-Surface Negative-Charge Density Disturb th.. [115]
24. Quantification of carbon nanomaterials in vivo: direct stable isot.. [113]
25. Adaption of the structure of carbon nanohybrids toward high-relaxi.. [113]
26. 纳米技术的生物环境健康效应与相应的标准研究 [110]
27. Eu3+:Y2O3@CNTs-a rare earth filled carbon nanotube nanomaterial wi.. [110]
28. Novel exciton dissociation behavior in tin-lead organohalide perov.. [107]
29. Application of polyhydroxylated fullerene derivatives in hemoglobi.. [106]
30. 减压蒸馏超声反应器 [105]
31. Divalent metals can reside on bonds in fullerenes [101]
32. Study on the antigenicity of metallofullerenol: antibody productio.. [101]
33. 富勒烯无氧收集混合器 [99]
34. 功能化富勒烯衍生物效应探索:延长线虫寿命和保护氧化应激损伤的分子机.. [99]
35. Fluorescent activatable gadofullerene nanoprobes as NIR-MR dual-mo.. [99]
36. Scanning Tunneling Microscopy Investigation of Substrate-Dependent.. [98]
37. Metallofullerenol Inhibits Cellular Iron Uptake by Inducing Transf.. [98]
38. 富勒烯制备方法 [96]
39. Metallofullerene nanoparticles circumvent tumor resistance to cisp.. [95]
40. Enhanced performance of inverted organic photovoltaic cells using .. [94]
41. In Situ Synchrotron X-ray Diffraction and Raman Spectroscopy Studi.. [93]
42. Metallofullerene nanoparticles promote osteogenic differentiation .. [92]
43. 一种实验器皿清洗机 [91]
44. 一种富勒烯的定量分析方法 [90]
45. Highly delocalized endohedral metal in Gd@C-2v(9)-C-82 metallofull.. [88]
46. 碳棒加装器 [86]
47. Bio-distribution and metabolic paths of silica coated CdSeS quantu.. [86]
48. 碳纳米材料合成装置及方法 [85]
49. Electrochemical synthesis of a ferrocenecarboxylic acid-C-60 compo.. [83]
50. An Anti-Tumor Nanoparticle, [Gd@C-82(OH)(22)]n, Induces Macrophage.. [83]
51. 一种内嵌金属富勒烯的提取方法 [82]
52. 碳纳米管及新型一维碳纳米功能材料 [82]
53. A novel organic electrical memory device based on the metallofulle.. [80]
54. 电极装置与应用该电极装置的反应气氛控制系统及方法 [79]
55. Chain Fullerene C-60=C=C-60=C=C-60: Possible Way to All-Carbon Pol.. [79]
56. 用于制备富勒烯纳米材料的旋转电弧合成炉 [78]
57. 内包金属富勒烯衍生物La@C_(82)-(C_4N_2H_8)_mH_n的合成与表征 [78]
58. Isomeric and structural impacts on electron acceptability of carbo.. [78]
59. C84同分异构体/DDAB修饰电极在水溶液中的电化学研究 [77]
60. The interactions between plasma proteins and fullerols by isotherm.. [76]
61. Electrochemistry of symmetrical fullerene dimer C-121 film modifie.. [74]
62. Nanocrystalline Perovskite Hybrid Photodetectors with High Perform.. [73]
63. 一种超声过滤反应器及其使用方法 [70]
64. Monolayered adatom aggregation induced by metallofullerene molecul.. [69]
65. The effect of Gd@C-82(OH)(22) nanoparticles on the release of Th1/.. [69]
66. 一种超临界填充方法及该方法制备的复合材料 [68]
67. Studies on anti-tumor and antimetastatic activities of fullerenol .. [67]
68. Biosafety assessment of Gd@C-82(OH)(22) nanoparticles on Caenorhab.. [67]
69. 一种真空压力控制器 [66]
70. Facile Synthesis of Ni-Based Catalysts by Adsorption and Conversio.. [66]
71. Separation and purification of fullerenols for improved biocompati.. [65]
72. Photochemical and photophysical properties of three carbon-bridged.. [63]
73. 自动连续过滤器 [61]
74. 一种富勒烯制备装置 [61]
75. The scavenging of reactive oxygen species and the potential for ce.. [61]
76. Synthesis and Characterization of Gd@C-82-PVK and C-60-PVK-A Kind .. [60]
77. Electrochemistry of a C-84-C-2(IV)-Modified Electrode in Aqueous S.. [59]
78. 自动填料式电弧合成炉 [57]
79. 复合电极制备方法及该方法制备的复合电极 [55]
80. Inhibition of tumor growth by endohedral metallofullerenol nanopar.. [51]
81. Subcellular Distribution of Polyhydroxylated Metallofullerene Gd@C.. [51]
82. Regioselective Polyamination of Gd@C-2v(9)-C-82 and Non-High Perfo.. [51]
83. Self-Construction of Core-Shell Structure by Metallofullerene-Cont.. [45]
84. Synthesis and Characterization of Metallofullerene Derivatives La@.. [39]
85. Electrochemical Tuning of Spin States of the Endohedral Metalloful.. [35]

Downloads

1. 碳纳米材料自动化合成设备及其控制装置与控制方法 [56]
2. 碳棒及碳棒提供装置 [53]
3. 富勒烯衍生物的连续化制备系统及制备方法 [31]
4. 高效液相色谱流动相循环使用装置 [25]
5. 无氧自动连续离心过滤机 [19]
6. Divalent metals can reside on bonds in fullerenes [14]
7. An organic-inorganic hybrid perovskite logic gate for better compu.. [12]
8. The isotopic effects of C-13-labeled large carbon cage (C-70) full.. [7]
9. Gd@C-82(OH)(22) Nanoparticles Constrain Macrophages Migration Into.. [6]
10. Quantitative analysis of Gd@C-82(OH)(22) and cisplatin uptake in s.. [5]
11. 一种内嵌金属富勒烯的提取方法 [4]
12. 富勒烯无氧收集混合器 [4]
13. Polyhydroxylated fullerenols regulate macrophage for cancer adopti.. [4]
14. 碳棒加装器 [3]
15. A novel organic electrical memory device based on the metallofulle.. [3]
16. UCNP@SiO2@Gd@C82衍生物纳米复合物的合成及其荧光/核磁双模式成像应用.. [3]
17. 自动填料式电弧合成炉 [2]
18. 用于制备富勒烯纳米材料的旋转电弧合成炉 [2]
19. 碳纳米材料合成装置及方法 [2]
20. 富勒烯制备方法 [2]
21. 一种实验器皿清洗机 [2]
22. 碳纳米管及新型一维碳纳米功能材料 [2]
23. 内包金属富勒烯衍生物La@C_(82)-(C_4N_2H_8)_mH_n的合成与表征 [2]
24. Enhanced performance of inverted organic photovoltaic cells using .. [2]
25. Novel carbon nanohybrids as highly efficient magnetic resonance im.. [2]
26. Facile synthesis of isomeric fullerene derivatives as acceptors fo.. [2]
27. An Anti-Tumor Nanoparticle, [Gd@C-82(OH)(22)]n, Induces Macrophage.. [2]
28. Biosafety assessment of Gd@C-82(OH)(22) nanoparticles on Caenorhab.. [2]
29. Novel exciton dissociation behavior in tin-lead organohalide perov.. [2]
30. 纳米TiO2分散及稳定性研究 [2]
31. 一种超声过滤反应器及其使用方法 [1]
32. 复合电极制备方法及该方法制备的复合电极 [1]
33. 减压蒸馏超声反应器 [1]
34. 自动连续过滤器 [1]
35. 碳棒活化器 [1]
36. 电极装置与应用该电极装置的反应气氛控制系统及方法 [1]
37. 一种富勒烯制备装置 [1]
38. 一种超临界填充方法及该方法制备的复合材料 [1]
39. 一种富勒烯的定量分析方法 [1]
40. 一种真空压力控制器 [1]
41. 纳米技术的生物环境健康效应与相应的标准研究 [1]
42. Application of polyhydroxylated fullerene derivatives in hemoglobi.. [1]
43. Separation and purification of fullerenols for improved biocompati.. [1]
44. Synthesis and Characterization of Gd@C-82-PVK and C-60-PVK-A Kind .. [1]
45. Quantification of carbon nanomaterials in vivo: direct stable isot.. [1]
46. Electrochemical synthesis of a ferrocenecarboxylic acid-C-60 compo.. [1]
47. Electrochemistry of symmetrical fullerene dimer C-121 film modifie.. [1]
48. Isomers of IC(70)BA and Their Photovoltaic Performance in Polymer .. [1]
49. The scavenging of reactive oxygen species and the potential for ce.. [1]
50. Inhibition of tumor growth by endohedral metallofullerenol nanopar.. [1]
51. Electrochemical Tuning of Spin States of the Endohedral Metalloful.. [1]
52. Potent Angiogenesis Inhibition by the Particulate Form of Fulleren.. [1]
53. Adaption of the structure of carbon nanohybrids toward high-relaxi.. [1]
54. Nanoparticles with High-Surface Negative-Charge Density Disturb th.. [1]