教师

于浦 教授

清华大学物理系

理科楼B324

北京 100084

电话:010-62786302

传真:010-62781604

yupu@mail.tsinghua.edu.cn

个人网页:http://info.phys.tsinghua.edu.cn/yupu

个人简历

教育经历:

2011年5月,加州大学伯克利分校物理系,博士,导师: Ramamoorthy Ramesh 教授

2006年7月,清华大学物理系,硕士,导师:朱邦芬 教授

2002年7月,清华大学物理系,学士。

研究经历:

2018/06- 清华大学物理系教授

2014/01-2020/01 日本理化学研究所兼职研究员,Unit Leader

2017/01-2018/05 清华大学物理系副教授

2013/01-2016/12 清华大学物理系助理教授

2011/11-2012/12 东京大学、理化学研究所,博士后,合作导师:Prof. Yoshi Tokura

教学


研究领域

本实验室立足于凝聚态实验物理和材料科学的交叉领域,着重于研究功能氧化物薄膜、界面以及纳米结构等量子受限系统的新颖特性和物理机制。通过激光分子束外延生长手段,我们可以实现在原子尺度上对这些功能氧化物体系的精确设计以及制备;并进一步对其物理特性进行研究和探索。我们关注的是这个领域中的一些重要课题,如功能氧化物的离子调控及新奇量子特性,多铁性等关联材料的设计与实现,以及功能氧化物薄膜在新型电子器件中的应用等等。

我们热忱欢迎对凝聚态物理以及材料科学研究感兴趣的研究生、博士后加盟。感兴趣的同学请email(yupu@tsinghua.edu.cn)联系。

奖励、荣誉和学术兼职

2017年,入选清华大学2017年十大亮点成果。

2011年3月,美国物理学会材料物理 Iris Ovshinsky 学生奖 (American Physics Society Iris Ovshinsky Student Travel Award for Materials Physics)。

2010年11月,材料研究学会学生研究银奖(Material Research Society Graduate Student Research Silver Award)。

主要论著

近年来致力于铁磁、铁电以及多铁性氧化物薄膜、界面等量子受限系统的物理研究,共发表学术论文130余篇。其中在Nature, Science, PNAS, Nature系列(MaterialsPhysicsEnergyNanotechnologyElectronicsCommunications)合计26篇,在Advanced MaterialsPhys. Rev. Lett. 合计20篇,受邀以通讯作者身份在材料科学风向标杂志Materials TodayAnnu. Rev. Mater. Res.等期刊撰写多篇多铁性材料和锰氧化物异质界综述文章。文章总引用数11000余次,H 指数48。

  1. Lu, N., Zhang, Z., Wang, Y.,      Li, H.-B., Qiao, S., Zhao, B., He, Q., Lu, S., Li, C., Wu, Y., Zhu, M.,      Lyu, X., Chen, X., Li, Z., Wang, M., Zhang, J., Tsang, S.C., Guo, J.,      Yang, S., Zhang, J., Deng, K., Zhang, D., Ma, J., Ren, J., Wu, Y., Zhu,      J., Zhou, S., Tokura, Y., Nan, C.-W., Wu, J., Yu, P.“Enhanced      low-temperature proton conductivity in hydrogen-intercalated      brownmillerite oxide” Nature Energy , 7 (12), pp.      1208-1216 (2022) DOI: 10.1038/s41560-022-01166-8

  2. Li, L., Wang, M., Zhou, Y.,      Zhang, Y., Zhang, F., Wu, Y., Wang, Y., Lyu, Y., Lu, N., Wang, G., Peng,      H., Shen, S., Du, Y., Zhu, Z., Nan, C.-W., Yu, P. “Manipulating      the insulator–metal transition through tip-induced hydrogenation” Nature      Materials , 21 (11), pp. 1246-1251 (2022) DOI:      10.1038/s41563-022-01373-4

  3. Zhang, H., Rousuli, A.,      Zhang, K., Luo, L., Guo, C., Cong, X., Lin, Z., Bao, C., Zhang, H., Xu,      S., Feng, R., Shen, S., Zhao, K., Yao, W., Wu, Y., Ji, S., Chen, X., Tan,      P., Xue, Q.-K., Xu, Y., Duan, W., Yu, P., Zhou, S. “Tailored      Ising superconductivity in intercalated bulk NbSe2” Nature      Physics 18, 1425-1430 (2022). DOI: 10.1038/s41567-022-01778-7

  4. X. Mou, J. S. Tang*, Y. J.      Lyu, Q. T. Zhang, S. Y. Yang, F. Xu, W. Liu, M. H. Xu, Y. Zhou, W. Sun, Y.      N. Zhong, B. Gao,  P. Yu*, H. Qian and H. Q. Wu,      "Analog Memristive Synapse based on Topotactic Phase Transition for      High-Performance Neuromorphic Computing and Neural Network      Pruning", Science Advances , 7, eabh0648      (2021)

  5. D. Tian#, Z. W. Liu#, S. C.      Shen#, *, Z. L. Li, Y. Zhou, H. Q. Liu, H. H. Chen* and P. Yu*,      “Manipulating Berry curvature of SrRuO3 thin films via epitaxial      strain”, Proceedings of the National Academy of Sciences USA ,      118, e2101946118 (2021) (arXiv:2103.12973)

  6. S. C. Shen, Z. L. Li, Z. J.      Tian, W. D. Luo*, S. Okamoto* and P. Yu*, “Emergent      ferromagnetism with Fermi-liquid behavior in proton intercalated      CaRuO3”, Physical Review X 11, 021018 (2021)

  7. M. Wang#, L. Hao#, F. Yin#,      X. Yang, S. C. Shen, N. L. Zou, H. Cao, J. Y. Yang, N. P. Lu, Y. S. Wu, J.      B. Zhang, H. Zhou, J. Li*, J. Liu* and P. Yu*, “Manipulate the      electronic states of Mott Iridate superlattice through protonation induced      electron filling”, Advanced Functional Materials ,      2100261 (2021) (doi:10.1002/adfm.202100261)

  8. Li, Z., S. Shen, Z. Tian, K.      Hwangbo, M. Wang, Y. Wang, F. M. Bartram, L. He, Y. Lyu, Y. Dong, G. Wan,      H. Li, N. Lu, J. Zang, H. Zhou, E. Arenholz, Q. He, L. Yang*, W. Luo*      and P. Yu*. "Reversible manipulation of the magnetic      state in SrRuO3 through electric-field controlled proton      evolution." Nature Communications 11(1): 184      (2020).

  9. Yi, D*., Y. Wang, O. M. J.      van ʼt Erve, L. Xu, H. Yuan, M. J. Veit, P. P. Balakrishnan, Y. Choi, A.      T. N’Diaye, P. Shafer, E. Arenholz, A. Grutter, H. Xu*, P. Yu*,      B. T. Jonker and Y. Suzuki. "Emergent electric field control of phase      transformation in oxide superlattices." Nature      Communications11(1): 902 (2020).

  10. Y. J. Wang, Q. He*, W. Ming,      M. Du, N. P. Lu, M. Cafolla, J. Fujioka, Q. H. Zhang, D. Zhang, S. Shen,      Y. Lyu, A. T. N'Diaye, E. Arenholz, L. Gu, C. W. Nan, Y. Tokura, S. Okamoto*      and P. Yu. "Robust Ferromagnetism in Highly Strained      SrCoO3 Thin Films." Phys. Rev. X 10, 021030      (2020).

  11. M. Wang, X. Sui, Y. Wang,      Y.-H. Juan, Y. Lyu, H. Peng, T. Huang, S. Shen, C. Guo, J. Zhang, Z. Li,      H.-B. Li, N. Lu, A. T. N’Diaye, E. Arenholz, S. Zhou, Q. He, Y.-H. Chu, W.      Duan,* P. Yu*, “Manipulate the Electronic and Magnetic States      in NiCo2O4 Films through Electric-Field Induced Protonation at Elevated      Temperature”, Adv. Mater. 1900458. (2019)

  12. J. W. Guo, P. S. Wang, Y.      Yuan, Q. He*, J. L. Lu, T. Z. Chen, S. Z. Yang, Y. J. Wang, R. Erni, M. D.      Rossell, V. Gopalan, H. J. Xiang*, Y. Tokura and P. Yu*, Strain-induced      ferroelectricity and spin-lattice coupling in SrMnO3 thin films, Phys. Rev. B 97,      235135 (2018).

  13. N. P. Lu, P. Zhang, Q.      Zhang, R. Qiao, Q. He, H. B.      Li, Y. J. Wang, J. W. Guo, D. Zhang, Z. Duan, Z. L. Li, M. Wang, S. Z.      Yang, M. Z. Yan, E. Arenholz, S. Y. Zhou, W. L. Yang, L. Gu, C. W. Nan, J.      Wu*, Y. Tokura and P. Yu*, Electric-field control of      tri-state phase transformation with a selective dual-ion switch, Nature 546,      124(2017).

  14. H. B. Li, N. P. Lu, Q.      Zhang, Y. J. Wang, D. Q. Feng, T. Z. Chen, S. Z. Yang, Z. Duan, Z. L. Li,      Y. J. Shi, W. C. Wang, W. H. Wang, K. Jin, H. Liu, J. Ma, L. Gu, C. W. Nan      and P. Yu*, Electric-field control of      ferromagnetism through oxygen ion gating,      Nature      Communications 8, 2156 (2017).

  15. Y. Cui, G. Zhang, H. -B. Li,      H. Lin, X. Zhu, H. -H. Wen, G. Q. Wang, J. Z. Sun, M. W. Ma, Y. Li, D. L.      Gong, T. Xie, Y. H. Gu, S. L. Li, H. Q. Luo, P. Yu*, W. Q. Yu*, Protonation      induced high-Tc phases in iron-based superconductors evidenced by NMR and      magnetization measurements,      Science      Bulletin 63, 11 (2018).

  16. M. Wang, S. Shen, J. Y. Ni,      N. P. Lu, Z. L. Li, H. B. Li, S. Z. Yang, T. Z. Chen, J. W. Guo, Y. J.      Wang, H. J. Xiang and P. Yu*, Electric-Field Controlled      Phase Transformation in WO3 Thin Films through Hydrogen Evolution, Adv. Mater. 170362      (2017).

  17. P. Yu*,      W. Luo, D. Yi, et al., Interface      control of bulk ferroelectric polarization,      PNAS      109, 9710 (2012).

  18. P. Yu*, J. S. Lee, S. Okamoto, et al., Interface ferromagnetism and      orbital reconstruction in BiFeO3-La0.7Sr0.3MnO3 heterostructures, Phys. Rev. Lett.      105, 027201 (2010).

  19. S. W. Wu, S. A. Cybart, P. Yu, M. D. Rossell, J. X. Zhang,      R. Ramesh and R. C. Dynes, Reversible      Electric Control of Exchange Bias in a Multiferroic Field Effect Device, Nature Mater. 9, 756      (2010).

  20. P. Maksymovych, S. Jesse, P. Yu, et al., Polarization Control of      Electron Tunneling into Ferroelectric Surfaces, Science 324, 1421      (2009).


Review Paper:

  1. D. Yi*, N. P. Lu, X. G. Chen, S. C. Shen and P. Yu*, Engineering magnetism at functional oxide interfaces: manganites and beyond, J. Phys.: Condens. Matter. 29, 443004 (2017)

  2. J. C. Yang, Q. He*,P. Yu* and Y. H. Chu*, "BiFeO3 Thin Films: A Playground for Exploring Electric-Field Control of Multifunctionalities", Annu. Rev. Mater. Res. 45:3.1-3.27 (2015)

  3. P. Yu*, Y. H. Chu and R. Ramesh, Oxide Interfaces: Pathways to Novel Phenomena, Materials Today 15, 320 (2012)

  4. P. Yu*, Y. H. Chu and R. Ramesh, "Emergent phenomena at multiferroic heterointerfaces" Phil. Trans. R. Soc. A 370, 4856-4871 (2012)