基于石墨烯的二维材料的量子输运性能研究任务书

 2021-10-23 20:18:51

1. 毕业设计(论文)的内容和要求

本课题将通过机械剥离方法制备单层石墨烯,通过能剥离过程不同条件的摸索,如剥离次数,剥离时加热温度等,得到大面积,少层数的石墨烯,最好是得到若干单层石墨烯。

通过器件制备,研究其量子输运性能,总结该材料产生量子性能背后的物理机制。

最后把整个研究内容写成毕业论文。

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2. 参考文献

根据毕业要求指点10.3,毕设期间要进行研究现状调查与总结,要求在开题报告及毕业设计(论文)中涉及的英文文献不少于20篇,其中近5年不少于8篇,英文文献不少于5篇。

以下是与本课题相关的部分文献列表:(提供适当参考文献,学生自己按需补充) [1] Geim A. K., Novoselov K. S. The rise of graphene. Nature Materials. 6, 183 (2007).[2] Zhiyong Wang, Chi Tang, Raymond Sachs, et al. Proximity-induced ferromagnetism in graphene revealed by the anomalous Hall effect. Physical Review Letters. 114, 016603 (2015).[3] Mendes J. B., Alves Santos O., Meireles L. M., et al. Spin-Current to Charge-Current Conversion and Magnetoresistance in a Hybrid Structure of Graphene and Yttrium Iron Garnet. Phys Rev Lett. 115, 226601 (2015).[4] Averyanov D. V., Sokolov I. S., Tokmachev A. M., et al. High-Temperature Magnetism in Graphene Induced by Proximity to EuO. ACS Appl Mater Interfaces. 10, 20767 (2018).[5] Wei P., Lee S., Lemaitre F., et al. Strong interfacial exchange field in the graphene/EuS heterostructure. Nat Mater. 15, 711 (2016).[6] Leutenantsmeyer Johannes Christian, Kaverzin Alexey A, Wojtaszek Magdalena, et al. Proximity induced room temperature ferromagnetism in graphene probed with spin currents. 2D Materials. 4, (2017). [7] Wu Yan-Fei, Song Hua-Ding, Zhang Liang, et al. Magnetic proximity effect in graphene coupled to a BiFeO3 nanoplate. Physical Review B. 95, 195426 (2017).[8] Dushenko S, Ago H, Kawahara K, et al. Gate-Tunable Spin-Charge Conversion and the Role of Spin-Orbit Interaction in Graphene. Physical Review Letters. 116, 166102 (2016).[9] Dyrdal Anna, Barnas Jozef. Anomalous, spin, and valley Hall effects in graphene deposited on ferromagnetic substrates. 2D Materials. 4, 034003 (2017).[10] Tang Chi, Cheng Bin, Aldosary Mohammed, et al. Approaching quantum anomalous Hall effect in proximity-coupled YIG/graphene/h-BN sandwich structure. APL Materials. 6, 026401 (2018).[11] Evelt Michael, Ochoa Hector, Dzyapko Oleksandr, et al. Chiral charge pumping in graphene deposited on a magnetic insulator. Physical Review B. 95, 024408 (2017).[12] Swartz Adrian G, Odenthal Patrick M, Yufeng Hao, et al. Integration of the ferromagnetic insulator EuO onto gr

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