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| 电泳法制备氧化石墨烯薄膜的摩擦磨损性能研究 学位论文 , 北京: 中国科学院大学, 2015 Authors: 梁红玉![](/image/person.jpg)
Adobe PDF(9356Kb)  |   Favorite  |  View/Download:209/5  |  Submit date:2016/11/24 阳极电泳 氧化石墨烯薄膜 氟掺杂 有机羧酸分子膜 固体润滑 Anodic Electrophoresis Graphene Oxide Film Fluorine-doped Organic Carboxylic Acid Film Solid Lubrication |
| 氟化碳基薄膜的制备及其真空摩擦学行为研究 学位论文 , 北京: 中国科学院大学, 2015 Authors: 张礼芳
Adobe PDF(3525Kb)  |   Favorite  |  View/Download:100/3  |  Submit date:2016/11/24 氟化碳基薄膜 可控制备 真空摩擦 润滑作用 Fluorinated Carbon Films Controllable Fabrication Vacuum Friction Lubrication Effect |
| Highly efficient oxygen reduction on porous nitrogen-doped nanocarbons directly synthesized from cellulose nanocrystals and urea 期刊论文 Electrochimica Acta, 2015, 卷号: 170, 页码: 234-241 Authors: Liu Q(刘乔); Chen, Chongyi; Pan FP(潘富平) ; Zhang JY(张俊彦) ; Zhang JY(张俊彦)
Adobe PDF(2485Kb)  |   Favorite  |  View/Download:172/5  |  Submit date:2015/10/28 Cellulose Nanocrystals Nitrogen Doping Carbon Nanosheets Oxygen Reduction Fuel Cell |
| Swelling-induced synthesis of nitrogen-doped graphene for oxygen reduction reaction 期刊论文 Electrochimica Acta, 2015, 卷号: 180, 页码: 29-36 Authors: Pan FP(潘富平) ; Guo, Shu (郭术); Zhang JY(张俊彦)![](/image/person.jpg)
Adobe PDF(2302Kb)  |   Favorite  |  View/Download:124/3  |  Submit date:2016/01/11 Oxygen Reduction Reaction Fuel Cells Swelling Graphene Nitrogen Doping |
| Recent advances in the mechanical and tribological properties of fluorine-containing DLC films 期刊论文 RSC Advances, 2015, 卷号: 5, 页码: 9635-9649 Authors: Zhang LF(张礼芳) ; Wang FG(王富国) ; Qiang L(强力) ; Gao KX(高凯雄) ; Zhang B(张斌) ; Zhang JY(张俊彦) ; Zhang JY(张俊彦) ; Zhang B(张斌)![](/image/person.jpg)
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| Graphene oxide as efficient high-concentration formaldehyde scavenger and reutilization in supercapacitor 期刊论文 Journal of Colloid and Interface Science, 2015, 卷号: 444, 页码: 109-114 Authors: Liang HY(梁红玉) ; Bu YF(卜永锋); Zhang YT(张雨田); Zhang JY(张俊彦) ; Zhang JY(张俊彦)
Adobe PDF(1458Kb)  |   Favorite  |  View/Download:371/5  |  Submit date:2015/05/16 Graphene Oxide High-concentration Formaldehyde Degradation Efficiency Chemical Oxidation Physical Adsorption Supercapacitor |