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宋 成
教授

电话:010-62781275
电子邮箱:songcheng@mail.tsinghua.edu.cn
办公地址:北京市AG真人唯一平台逸夫技科楼ag真人平台官方A405
自旋电子学材料与器件研究小组每年拟招收1名博士后,1-2名博士生,2名本科生

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2004/09-2009/01 AG真人唯一平台材料科学与工程系,博士

2000/09-2004/06 中南大学材料科学与工程公司, 学士

2021/06-至今 AG真人唯一平台, ag真人平台官方, 长聘教授

2017/12-2021/06 AG真人唯一平台, ag真人平台官方, 长聘副教授

2011/10-2017/12 AG真人唯一平台,材料科学与工程系,讲师,副研究员,准聘副教授

2009/03-2011/08 德国雷根斯堡大学物理系,研究助理,洪堡博士后

• 本科生限选课 材料科学与工程基础(30350364)

• 中国材料研究学会常务理事/青年工作委员会主任

• 中国真空学会理事/薄膜专业委员会副主任

• 中国金属学会功能材料分会委员/副秘书长

• 《Rare Metals》编委


面向高速、高密度信息存储与高频移动通讯的国家重大需求,开展信息功能材料研究,包括自旋电子学材料、声表面波滤波器和磁声耦合器件。自旋电子学材料与器件是近年来发展起来的新兴学科方向,是继微电子、光电子材料与器件之后崭露头角、具有更为诱人发展前景的新型信息存储、处理和读出的材料与高新技术。射频滤波器是移动通信设备的核心组件,5G时代高速度、大通量的数据传输对滤波器提出了“高频率、大带宽、高功率、低损耗”的要求。通过学科交叉将自旋电子学材料与声表面波器件结合,探索自旋与声子耦合带来的新奇物理现象,研制传感、存储和通讯用磁声耦合器件。

• 2023 首届卓越青年研究生导师奖励基金

• 2023 AG真人唯一平台优秀博士学位论文优秀指导教师

• 2023 中国电子元器件行业协会科技进步一等奖(第6完成人)

• 2022 国家杰出青年科学基金

• 2022 AG真人唯一平台优秀博士学位论文优秀指导教师

• 2022 北京市科技进步一等奖(第10完成人)

• 2022 中国科技期刊卓越行动计划优秀审稿人

• 2021 北京市普通高等学校优秀本科生毕业设计(论文)优秀指导教师

• 2021 AG真人唯一平台优秀博士学位论文优秀指导教师

• 2020 爱思唯尔2020中国高被引学者

• 2020 北京市杰出青年基金

• 2020 北京市普通高等学校优秀本科生毕业设计(论文)优秀指导教师

• 2020AG真人唯一平台第九届青年教师教学大赛(理科、医科组)二等奖

• 2019 上海光源开放十周年优秀用户奖

• 2018 北京市科学技术(基础类)二等奖(第3完成人)

• 2018 国家科技进步二等奖(第10完成人)

• 2016 “长江学者奖励计划”青年学者

• 2015 全国“挑战杯”优秀指导教师

• 2015 AG真人唯一平台刘冰奖

• 2014 AG真人唯一平台第六届青年教师教学大赛(理工科组)二等奖

• 2013 国家基金委优秀青年基金

• 2012 国家自然科学二等奖 (第3完成人)

• 2012AG真人唯一平台“基础研究青年人才支持计划”

• 2011 教育部自然科学一等奖 (第3完成人)


• 2023-2027国家自然科学基金杰出青年科学项目《自旋电子学材料》

• 2023-2026国家自然科学基金专项项目《亚/反铁磁自旋的全电调控及原型器件构筑》

• 2023-2027 国家重点研发计划“物态调控”重点专项《强自旋轨道耦合反铁磁材料物态调控及原型器件》

• 2022-2025 国家重点研发计划“新型显示与战略电子材料”重点专项《新型自旋轨道矩材料与高性能存内计算器件》

• 2020-2023 北京市杰出青年基金项目《自旋声电子学材料与器件》

• 2019-2022国家自然科学基金面上项目《Mn2Au反铁磁薄膜的电学操控机制与相关隧道结器件》

• 2017-2020 国家自然科学基金面上项目《FeRh反铁磁-铁磁相转变机理与调控》

• 2017-2021 国家重点研发计划“战略电子材料”重点专项《新型磁性半导体及其异质结的多场调控》

• 2016-2021 国家重点研发计划“纳米科技”重点专项《面向三维集成的阻变存储器纳米尺度效应研究》

• 2014-2016 国家自然科学基金优秀青年科学基金项目《自旋电子材料与器件》

• 2014-2016 国家863 项目《高密度存储与磁电子材料关键技术》

• 2013-2015 国家自然科学基金青年基金项目《异质结薄膜中的电控磁效应及相关机理研究》


Nat. Mater. (3),Nat. Electron. (4),Nat. Commun. (10), Sci. Adv. (3),Phys. Rev. Lett. (7),Adv. Mater. (7),Adv. Funct. Mater. (12)Nano Lett. (4)等期刊上发表学术论文200余篇,并受邀在Prog. Mater. Sci. (2),Mater. Sci. & Eng. R (2)Appl. Phys. Rev.等期刊撰写综述。引用>13000次,H因子58。(共同)指导的员工有4人次获得AG真人唯一平台特等奖学金和“学术新秀”称号。指导过的12名博士生中有9人获评AG真人唯一平台优秀博士学位论文。6名员工获评AG真人唯一平台优秀硕士学位论文和优秀本科综合论文训练,2名员工获北京市优秀本科生毕业论文,1位员工获“挑战杯”全国一等奖。

部分论文列表:

1. Yongjian Zhou, Tingwen Guo, Lei Han, Liyang Liao, Wenqing He, Caihua Wan, Chong Chen, Qian Wang, Leilei Qiao, Hua Bai, Wenxuan Zhu, Yichi Zhang, Ruyi Chen, Xiufeng Han, Feng Pan, Cheng Song*. Spin-torque–driven antiferromagnetic resonance. Sci. Adv. 10, eadk7935 (2024).

2. Lei Han, Xizhi Fu, Rui Peng, Xingkai Cheng, Jiankun Dai, Liangyang Liu,, Yidian Li, Yichi Zhang, Wenxuan Zhu, Hua Bai, Yongjian Zhou, Shixuan Liang, Chong Chen, Qian Wang, Xianzhe Chen, Luyi Yang , Yang Zhang, Cheng Song*, Junwei Liu*, Feng Pan*. Electrical 180° switching of Néel vector in spin-splitting antiferromagnet. Sci. Adv. 10, eadn0479 (2024)

3. Yichi Zhang, Hua Bai, Lei Han, Chong Chen, Yongjian Zhou, Christian H. Back,Feng Pan, Yuyan Wang,* and Cheng Song*.Simultaneous High Charge-Spin Conversion Efficiency and Large Spin Diffusion Length in Altermagnetic RuO2. Adv. Funct. Mater. 2024, 2313332

4. Ruyi Chen, Chong Chen, Lei Han, Peisen Liu, Rongxuan Su, Wenxuan Zhu, Yongjian Zhou, Feng Pan, Cheng Song*. Ordered creation and motion of skyrmions with surface acoustic wave. Nat. Commun. (2023) 14: 4427

5. Chong Chen, Lei Han, Peisen Liu, Yichi Zhang, Shixuan Liang, Yongjian Zhou, Wenxuan Zhu, Sulei Fu, Feng Pan, Cheng Song*. Direct-Current Electrical Detection of Surface-Acoustic-Wave-Driven Ferromagnetic Resonance. Adv. Mater. 2023, 35, 2302454.

6. Shixuan Liang, Ruyi Chen, Qirui Cui, Yongjian Zhou, Feng Pan, Hongxin Yang,* and Cheng Song*. Ruderman−Kittel−Kasuya−Yosida-Type Interlayer Dzyaloshinskii−Moriya Interaction in Synthetic Magnets. Nano Lett. 2023, 23, 8690−8696

7. H. Bai, Y. C. Zhang, Y. J. Zhou, P. Chen, C. H. Wan, L. Han, W. X. Zhu, S. X. Liang, Y. C. Su, X. F. Han, F. Pan, and C. Song*. Efficient Spin-to-Charge Conversion via Altermagnetic Spin Splitting Effect in Antiferromagnet RuO2. Phys. Rev. Lett. 130, 216701 (2023)

8. Hanchen Wang#, Rundong Yuan#, Yongjian Zhou#, Yuelin Zhang, Jilei Chen, Song Liu, Hao Jia, Dapeng Yu, Jean-Philippe Ansermet*, Cheng Song*, and Haiming Yu*. Long-distance coherent propagation of high-velocity antiferromagnetic spin waves. Phys. Rev. Lett. 130, 096701 (2023)

9. Wenxuan Zhu, Cheng Song*, Qian Wang, Hua Bai, Siqi Yin, and Feng Pan*. Anomalous displacement reaction for synthesizing above room-temperature and air-stable vdW ferromagnet PtTe2Ge1/3. Natl. Sci. Rev. 10: nwac173, 2023

10. Ruyi Chen, Feng Xu, Qirui Cui, Jinghua Liang, Yongjian Zhou, Ning Wang, Feng Pan, Fei Xue*, Hongxin Yang*, Cheng Song*. Anisotropic interlayer Dzyaloshinskii-Moriya interactions in synthetic ferromagnetic multilayers. Science Bulletin 68 (2023) 878–882

11. Hongsong Qiu, Tom S. Seifert, Lin Huang, Yongjian Zhou, Zdeněk Kašpar, Caihong Zhang, Jingbo Wu, Kebin Fan, Qi Zhang, Di Wu, Tobias Kampfrath,* Cheng Song,* Biaobing Jin,* Jian Chen, and Peiheng Wu. Terahertz Spin Current Dynamics in Antiferromagnetic Hematite. Adv. Sci. 2023, 2300512.

12. Xianzhe Chen, Hua Bai, Yuchen Ji, Yongjian Zhou, Liyang Liao, Yunfeng You, Wenxuan Zhu, Qian Wang, Lei Han, Xiaoyang Liu, Jia Yin, Xufeng Kou, Feng Pan, and Cheng Song*. Control of spin current and antiferromagnetic moments via topological surface state. Nat. Electron. 5, 574-578 (2022)

13. Cheng Song and Xianzhe Chen, Controlling antiferromagnetic moments with spin currents has low power requirements. Nat. Electron. 5, 549-550 (2022)

14. H. Bai,, L. Han, X. Y. Feng, Y. J. Zhou, R. X. Su, Q. Wang, L. Y. Liao, W. X. Zhu, X. Z. Chen, F. Pan, X. L. Fan* and C. Song*. Observation of the spin splitting torque in a collinear antiferromagnet RuO2. Phys. Rev. Lett. 128, 197202 (2022)

15. Lei Han,† Yuyan Wang,† Wenxuan Zhu, Runni Zhao, Xianzhe Chen, Rongxuan Su, Yongjian Zhou, Hua Bai, Qian Wang, Yunfeng You, Chong Chen, Sen Yan, Tongjin Chen, Yongzheng Wen, Cheng Song,* Feng Pan*. Spin homojunction with high interfacial transparency for efficient spin-charge conversion. Sci. Adv. 8, eabq2742 (2022)

16. Yongjian Zhou, Liyang Liao, Tingwen Guo, Hua Bai, Mingkun Zhao, Caihua Wan, Lin Huang, Lei Han, Leilei Qiao, Yunfeng You, Ruyi Chen, Zhiyuan Zhou, Xiufeng Han, Feng Pan, Cheng Song*. Orthogonal interlayer coupling in an all-antiferromagnetic junction. Nat. Commun. 13, 3723 (2022).

17. Wenxuan Zhu, Cheng Song,* Lei Han, Tingwen Guo, Hua Bai, Feng Pan*. Van der Waals lattice-induced colossal magnetoresistance in Cr2Ge2Te6 thin flakes. Nat. Commun. 13, 6428 (2022)

18. Lin Huang, Yongjian Zhou, Hongsong Qiu*, Hua Bai, Chong Chen, Weichao Yu, Liyang Liao, Tingwen Guo, Feng Pan, Biaobing Jin, and Cheng Song*, Antiferromagnetic inverse spin Hall effect. Adv. Mater. 2022, 34, 2205988

19. Yongjian Zhou, Tingwen Guo, Leilei Qiao, Qian Wang, Meng Zhu, Jia Zhang, Quan Liu, Mingkun Zhao, Caihua Wan, Wenqing He, Hua Bai, Lei Han, Lin Huang, Ruyi Chen, Yonggang Zhao, Xiufeng Han, Feng Pan, Cheng Song*. Piezoelectric Strain-Controlled Magnon Spin Current Transport in an Antiferromagnet. Nano Lett. 22, 4646 (2022).

20. H. Bai, Y. C. Zhang, L. Han, Y. J. Zhou, F. Pan, and C. Song*, Antiferromagnetism: An efficient and controllable spin source. Appl. Phys. Rev. 9, 041316 (2022)

21. Ruyi Chen, Qirui Cui, Lei Han, Xiaotian Xue, Jinghua Liang, Hua Bai, Yongjian Zhou, Feng Pan, Hongxin Yang, Cheng Song*. Controllable generation of antiferromagnetic skyrmions in synthetic antiferromagnets with thermal effect. Adv. Funct. Mater. 32, 2111906 (2022).

22. Wenxuan Zhu, Cheng Song*, Lei Han, Hua Bai, Qian Wang, Siqi Yin, Lin Huang, Tongjin Chen, Feng Pan*. Interface-enhanced ferromagnetism with long-distance effect in van der Waals semiconductor. Adv. Funct. Mater. 2022, 32, 2108953

23. Qian Wang, Ying Lu, Rui-Lin He, Ruyi Chen, Leilei Qiao, Feng Pan, Zhou Yang, and Cheng Song*. Spin Selectivity in Chiral Hybrid Cobalt Halide Films with Ultra-smooth Surface. Small Methods. 2022, 6, 2201048

24. X. Chen, S. Shi, G. Shi, X. Fan, C. Song*, X. Zhou, H. Bai, L. Liao, Y. Zhou, H. Zhang, A. Li, Y. Chen, X. Han, S. Jiang, Z. Zhu, H. Wu, X. Wang, D. Xue, H. Yang*, and F. Pan*. Observation of the antiferromagnetic spin Hall effect. Nat. Mater. 20, 800 (2021). (ESI highly cited paper)

25. Cheng Song*, Ruiqi Zhang, Liyang Liao, Yongjian Zhou, Xiaofeng Zhou, Ruyi Chen, Yunfeng You, Feng Pan. Spin-orbit torques: materials, mechanisms, performances, and potential application. Prog. Mater. Sci. 118, 100761 (2021).

26. Yunfeng You, Hua Bai, Xiaoyu Feng, Xiaolong Fan, Lei Han, Xiaofeng Zhou, Yongjian Zhou, Ruiqi Zhang, Tongjin Chen, Feng Pan & Cheng Song*, Cluster magnetic octupole induced out-of-plane spin polarization in antiperovskite antiferromagnet. Nat. Commun. 12: 6524 (2021).

27. Ruyi Chen, Qirui Cui, Liyang Liao, Yingmei Zhu, Ruiqi Zhang, Hua Bai, Yongjian Zhou, Guozhong Xing, Feng Pan, Hongxin Yang*, Cheng Song*. Reducing Dzyaloshinskii-Moriya interaction and field-free spin-orbit torque switching in synthetic antiferromagnets. Nat. Commun. 12, 3113 (2021)

28. Leilei Qiao, Cheng Song*, Yiming Sun, Muhammad Umer Fayaz, Tianqi Lu, Siqi Yin, Chong Chen, Huiping Xu, Tian-Ling Ren, Feng Pan*. Observation of Negative Capacitance in Antiferroelectric PbZrO3 Films. Nat. Commun. 12, 4215 (2021).

29. Ying Lu, Qian Wang, Ruilin He, Foxin Zhou, Xia Yang, Dong Wang, Hui Cao, Wanli He, Feng Pan, Zhou Yang, and Cheng Song*. Highly-Efficient Spin-Filtering Transport in Chiral Hybrid Copper Halide. Angew. Chem. Int. Ed. 2021, 60, 23578–23583.

30. Ying Lu, Qian Wang, Ruyi Chen, Leilei Qiao, Foxin Zhou, Xia Yang, Dong Wang, Hui Cao, Wanli He, Feng Pan, Zhou Yang*, Cheng Song*. Spin-Dependent Charge Transport in 1D Chiral Hybrid Lead-Bromide Perovskite with High Stability. Adv. Funct. Mater. 2021, 31, 2104605

31. Qian Wang, Youdi Gu, Wenxuan Zhu, Lei Han, Feng Pan, and Cheng Song*. Noble-Metal-Assisted Fast Interfacial Oxygen Migration with Topotactic Phase Transition in Perovskite Oxides. Adv. Funct. Mater. 2021, 31, 2106765.

32. R. Y. Chen#, Y. Gao#, X. C. Zhang, R. Q. Zhang, S. Q. Yin, X. Z. Chen, X. F. Zhou,Y. J. Zhou, J. Xia, Y. Zhou, S. G. Wang, F. Pan, Y. Zhang,* and C. Song*. Realization of Isolated and High-Density Skyrmions at Room Temperature in Uncompensated Synthetic Antiferromagnets. Nano Lett. 20, 3299-3305 (2020).

33. Y. Y. Wang*, M. M. Decker, T.N.G. Meier, X. Z. Chen, C. Song, T. Grünbaum, W. S. Zhao, J. Y. Zhang, L. Chen*, and C. H. Back, Spin pumping during the antiferromagnetic–ferromagnetic phase transition of iron–rhodium, Nat. Commun. 11, 275 (2020)

34. X. Z. Chen#, X. F. Zhou#, R. Cheng#, C. Song*, J. Zhang, Y. C. Wu, Y. Ba, H. B. Li, Y. M. Sun, Y. F. You, Y. G. Zhao and F. Pan*, Electric field control of Néel spin-orbit torque in an antiferromagnet. Nat. Mater. 18, 931−935 (2019).

35. Y. M. Sun, X. L. Zhao, C. Song*, K. Xu, Y. Xi, J. Yin, Z. Y. Wang, X. F. Zhou, X. Z. Chen, G. Y. Shi, H. B. Lv, Q. Liu, F. Zeng, X. Y. Zhong, H. Q. Wu, M. Liu, and F. Pan*, Performance Enhancing Selector via Symmetrical Multilayer Design, Adv. Funct. Mater. 29, 1808376 (2019).

36. X. Z. Chen, R. Zarzuela, J. Zhang, C. Song*, X. F. Zhou, G. Y. Shi, F. Li, H. A. Zhou, W. J. Jiang, F. Pan, and Y. Tserkovnyak, Antidamping-Torque-Induced Switching in Biaxial Antiferromagnetic Insulators. Phys. Rev. Lett. 120, 207204 (2018).

37. C. Song*, B. Cui, F. Li, X. J. Zhou, F. Pan, Recent progress in voltage control of magnetism: Materials, mechanisms, and performance. Prog. Mater. Sci. 87, 33–82 (2017).

38. X. Z. Chen, J. F. Feng, Z. C. Wang, J. Zhang, X. Y. Zhong, C. Song*, L. Jin, B. Zhang, F. Li, M. Jiang, Y. Z. Tan, X. J. Zhou, G. Y. Shi, X. F. Zhou, X. D. Han, S. C. Mao, Y. H. Chen, X. F. Han, F. Pan*. Tunneling anisotropic magnetoresistance driven by magnetic phase transition. Nat. Commun. 8, 449 (2017)

39. F. Li, C. Song*, B. Cui, J. J. Peng, Y. D. Gu, G. Y. Wang, and F. Pan*. Photon-gated spin transistor, Adv. Mater. 29, 1604052 (2017).

40. B. Cui, C. Song*, H. J. Mao, Y. N. Yan, F. Li, S. Gao, J. J. Peng, F. Zeng, and F. Pan*. Manipulation of electric field effect by orbital switch. Adv. Funct. Mater. 26, 753–759 (2016).

41. W. Liu, H. Zhang, J. Shi, Z. Wang, C. Song, X. Wang, S. Lu, X. Zhou, L. Gu, D. V. Louzguine-Luzgin, M. Chen, K. Yao and Na Chen*. A room-temperature magnetic semiconductor from a ferromagnetic metallic glass. Nat. Commun. 7, 13497 (2016).

42. Y. Y. Wang, X. Zhou, C. Song*, Y. N. Yan, S. M. Zhou G. Y. Wang, C. Chen, F. Zeng, F. Pan*, Electrical control of exchange spring in antiferromagnetic metals. Adv. Mater. 27, 3196–3201 (2015).

43. B. Cui, C. Song*, H. Mao, H. Wu, F. Li, J. Peng, G. Wang, F. Zeng, and F. Pan*, Magnetoelectric coupling induced by interfacial orbital reconstruction. Adv. Mater. 27, 6651–6656 (2015).

44. B. Cui, C. Song*, G. A. Gehring, F. Li, G. Wang, C. Chen, J. Peng, H. Mao, F. Zeng, and Feng Pan*. Electrical manipulation of orbital occupancy and magnetic anisotropy in manganites. Adv. Funct. Mater. 25, 864–870 (2015).

45. Y. Y. Wang, C. Song*, G. Y. Wang, J. H. Miao, F. Zeng, and F. Pan*. Antiferromagnet controlled tunneling magnetoresistance. Adv. Funct. Mater. 24, 6806–6810 (2014)

46. B. Cui, C. Song*, G. Y. Wang, Y. N. Yan, J. J. Peng, J. H. Miao, H. J. Mao, F. Li, C. Chen, F. Zeng, and F. Pan*. Reversible ferromagnetic phase transition in electrode-gated manganites. Adv. Funct. Mater. 24, 7233–7240 (2014).

47. J. H. Han, C. Song*, S. Gao, Y. Y. Wang, C. Chen, and F. Pan. Realization of the Meminductor. ACS Nano, 8, 10043–10047 (2014).

48. G. Chen, C. Song*, C. Chen, S. Gao, F. Zeng, F. Pan*. Resistive switching and magnetic modulation in cobalt-doped ZnO. Adv. Mater., 24, 3515 (2012).

49. Y. Y. Wang, C. Song*, B. Cui, G. Y. Wang, F. Zeng, F. Pan*. Room-temperature perpendicular exchange coupling and tunneling anisotropic magnetoresistance in antiferromagnet-based tunnel junction. Phys. Rev. Lett., 109, 137201 (2012).

50. C. Song, M. Sperl, M. Utz, M. Ciorga, G. Woltersdorf, D. Bougeard, A. Einwanger, C. H. Back, D. Weiss*. Proximity induced enhancement of the Curie temperature in hybrid spin injection devices. Phys. Rev. Lett., 107, 056601 (2011).



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