舒新愉 副研究员

    舒新愉，本科毕业于哈尔滨工业大学，于2014年获得工学学士学位。同年，加入了北京工业大学固体微结构与性能研究所张泽院士、韩晓东教授课题组攻读硕士研究生，以优秀毕业生、优秀毕业论文的成绩于2017年毕业，并获得两次科技创新奖项。2017-2021年于新加坡国立大学攻读博士学位，获全额奖学金，师从Chen Jingsheng教授。2022-2024年加入了清华大学物理系于浦教授课题组从事博士后研究工作，期间获得了清华大学水木学者、国家交流引进计划、教育部海外引才专项等支持，主持博士后面上基金1项，参与国家自然科学基金重点研发项目1项。

    主要研究方向为薄膜材料的自旋电子学研究，通过直流/低频/高频电学控制磁矩的方向性，实现信息态的存写与读取，衔接磁性存储硬盘、磁带、磁隧穿结（MTJ）、高频非线性振荡器等器件研发，服务于磁随机存储器（MRAM）、自旋类脑芯片、存算一体逻辑器件的研发。目前，在Nature系列、Science系列、Advanced Materials系列、Physical Review系列等知名学术期刊发表了40余篇创新性科学论文，其中以第一作者（含共同一作）的身份发表10篇，总引用数超过了2200次，兼任美国物理学会（APS）旗下Phys. Rev.系列，wiley系列，Springer系列国际知名期刊审稿人。

2022   第71批博士后面上项目             项目负责人

2023   国家自然科学基金重点研发项目     骨干参与者

2026   浙江省自然科学基金青年项目         项目负责人

2026   浙江省尖兵计划                     骨干参与者

2026   自旋全国重点实验室开放基金         项目负责人

2025

1. Zhou, Y.†,Shu, X.†, Zhang, Y.†, Liu, Z.†,...& Yu, P.* (2025). Geometry-driven polar antiferromagnetic metallicity in a double-layered perovskite cobaltate. Nature Materials.

2. Bai, R., Yang, Q., Fan, H., Feng, Z., Wei, M., Shu, X., ... & Zhou, T. (2025). Uniform and Robust Field-Free Spin–Orbit Torque Switching via Complementary Double-Wedge Structure. Nano Letters. 

3. Tian, D., Zheng, H., Huang, Z., Wu, S., Li, P., Li, C., Zhang, J., Shu, X., ... & Yu, P.  (2025). Hydrogenated PdCoO 2: A layered Metallic Oxide with Robust  Room-Temperature Ferromagnetism. Physical Review X, 15(4), 041030.

4. Xu, T., Xu, Z., Dong, Y., Cheng, Y., Wang, L., Feng, H., Bai, H., Xu, K., Shu, X., ... & Jiang, W. (2025). Vertical Soliton-Assisted Current Switching in Extremely Thick FeGd Ferrimagnets. Physical Review Letters, 135(12), 126703.

5. Yu, C., Wang, M., Yan, Y., Yu, Q., Chen, S., Shu, X., ... & Liu, B. (2025). Spin Current with Z‐Polarization Generated by the Aligned Interfacial Spins of Ultrathin Metallic Antiferromagnetic Layer Under an In Situ Magnetic Field. Advanced Functional Materials, 2500201.

6. Fan, H., Feng, Z., Chen, T., Han, X., Shu, X., Wei, M., ... & Zhou, T. (2025). Interlayer exchange coupling effects on the spin-orbit torque in synthetic magnets. Chinese Physics B.

2024

1. Shen, S., Oh, T., Song, J., Tian, D., Shu, X., Zhang, Y., ... & Yu, P. (2024). Selective Control of Electric Charge of Weyl Fermions in Pyrochlore Iridates. Advanced Materials, 36(49), 2403306.

2. Tian, D., Miao, L., Si, L., Schreiber, N. J., Shen, S., Zhang, J., Shu, X., ... & Yu, P. (2024). Tuning the electronic and magnetic states of C a₂RuO₄ with proton evolution. Physical Review Materials, 8(7), 074408.

2023

1. Zhang, Q., Shi, S., Zheng, Z., Zhou, H., Shao, D. F., Zhao, T., Su, H., Liu, L., Shu, X., ... & Chen, J. (2023). Highly Energy-Efficient Spin Current Generation in SrIrO3 by Manipulating the Octahedral Rotation. ACS Applied Materials & Interfaces, 16(1), 1129-1136.

2. Zhang, Y., Wang, Y., Wu, Y., Shu, X.,  Zhang, F., Peng, H., ... & Yu, P. (2023). Artificially controlled  nanoscale chemical reduction in VO2 through electron beam illumination. Nature Communications, 14(1), 4012.

3. Zhou, J., Liu, L., Shu, X., Lin, W., Zhao, T., & Chen, J. (2023). Symmetry Breaking by Materials Engineering for Spin-Orbit Torque Technology. IEEE Transactions on Magnetics.

4. Liu,  L., Zhao, T., Lin, W., Shu, X., Zhou, J., Zheng, Z., ... & Chen, J.  (2023). Symmetry breaking for current-induced magnetization switching. Applied Physics Reviews, 10(2).

5. Xu, T., Cheng, Y., Dong, Y., Bai, H., Zhou, H. A., Shu, X., ... & Jiang, W. (2023). Evolution of Compensated Magnetism and Spin-Torque Switching in Ferrimagnetic Fe 1− x Tb x. Physical Review Applied, 19(3), 034088.

2022

1. Shu, X.,  Liu, L., Zhou, J., Lin, W., Xie, Q., Zhao, T., ... & Chen, J.  (2022). Field-Free Switching of Perpendicular Magnetization Induced by  Longitudinal Spin-Orbit-Torque Gradient. Physical Review Applied, 17(2), 024031.

2. Xie, Q., Lin, W., Liang, J., Zhou, H., Waqar, M., Lin, M., Teo, S., Chen, H., Lu, X., Shu, X., ... & Chen, J. (2022). Rashba‐Edelstein Effect in the h‐BN Van Der Waals Interface for Magnetization Switching. Advanced Materials, 2109449.

3. Liu, L., Zhou, C., Zhao, T., Yao, B., Zhou, J., Shu, X., ...& Chen, J. (2022). Current-induced self-switching of perpendicular magnetization in CoPt single layer. Nature Communications, 13, 3539.

4. Liu, L., Zhou, G., Shu, X.,  Li, C., Lin, W., Ren, L., ... & Chen, J. (2022). Room-temperature  spin-orbit torque switching in a manganite-based heterostructure. Physical Review B, 105(14), 144419.

2021

1. Zhou, J. ^†, Shu, X. ^†, Lin, W. ^†, et al. (2021) Modulation of spin-orbit torque in SrRuO3 by epitaxial-strain-induced octahedral rotation. Advanced Materials, 33(30), 2007114.

2. Chen, S. ^†, Shu, X. ^†,  Zhou, J., Zhou, C., Xie, Q., Zhao, T., ... & Chen, J. (2021). Giant  spin torque efficiency in single-crystalline antiferromagnet Mn2Au  films. Science China Materials, 64(8), 2029-2036.

3. Lin, W., Liu, L., Liu, Q., Li, L., Shu, X.,  Li, C., ... & Chen, J. (2021). Electric Field Control of the  Magnetic Weyl Fermion in an Epitaxial SrRuO3 (111) Thin Film. Advanced Materials, 33(36), 2101316.

4. Zhou, J., Zhao, T., Shu, X.,  Liu, L., Lin, W., Chen, S., ... & Chen, J. (2021). Spin–Orbit  Torque‐Induced Domain Nucleation for Neuromorphic Computing. Advanced Materials, 33(36), 2103672.

5. Liu, L., Zhao, T., Ren, L., Zhou, C., Lin, W., Shu, X.,  ... & Chen, J. (2021). Thermal Effect in Current-Induced  Magnetization Switching and Out-of-Plane Effective Field Measurements. ACS Applied Electronic Materials, 3, 2483.

6. Xie, Q., Lin, W., Sarkar, S., Shu, X.,  Chen, S., Liu, L., ... & Chen, J. (2021). Field-free magnetization  switching induced by the unconventional spin–orbit torque from WTe2. APL Materials, 9(5), 051114.

7. Ren, L., Liu, L., Shu, X.,  Lin, W., Yang, P., Chen, J., & Teo, K. L. (2021). Spin–Orbit Torque  Switching of a High-Quality Perpendicularly Magnetized Ferrimagnetic  Heusler Mn3Ge Film. ACS Applied Materials & Interfaces, 13(15), 18294-18300.

8. Liu, L., Zhou, C., Shu, X., Li, C., Zhao, T., Lin, W., ... & Chen, J. (2021). Symmetry-dependent field-free switching of perpendicular magnetization. Nature Nanotechnology, 16(3), 277-282.

9. Yue, S., Cheng, H., He, H., Guan, X., Le, Q., Shu, X., ... & Ouyang, J. (2021). Photo-enhanced Seebeck effect of a highly conductive thermoelectric material. Journal of Materials Chemistry A, 9(31), 16725-16732.

2020

1. Shu, X., Zhou, J.,  Liu, L., Lin, W., Zhou, C., Chen, S., Xie, Q., Ren, L., Yang, H., Chen,  J. (2020). Role of interfacial orbital hybridization in spin-orbit  torque generation in Pt-based heterostructures. Physical Review Applied, 14, 054056.

2. Zhou, J. ^†, Shu, X. ^†,  Liu, Y., Wang, X., Lin, W., Chen, S., Liu, L., Xie, Q., Hong, T., Yang,  P., Yan, B., Han, X., and Chen, J. (2020). Magnetic asymmetry induced  anomalous spin-orbit torque in IrMn. Physical Review B, 101(18), 184403.

3. Chen, S., Wu, G., Xie, Q., Zhou, J., Shu, X., Zhang, Z., & Chen, J. (2020). Investigation of Spin Transport Properties in Perpendicularly Magnetized MoS₂/Pt/[Co/Ni]_n Multilayers with Effective Spin Injection into Two-Dimensional MoS₂. Physical Review Applied, 14(1), 014095.

4. Lin, W., Yang, B., Chen, A. P., Wu, X., Guo, R., Chen, S., Liu, L., Xie, Q., Shu, X.,  …& Chow, G. M. (2020). Perpendicular Magnetic Anisotropy and  Dzyaloshinskii-Moriya Interaction at an Oxide/Ferromagnetic Metal  Interface. Physical Review Letters, 124(21), 217202.

5. Guo, R., You, L., Lin, W., Abdelsamie, A., Shu, X.,  Zhou, G., ... & Chen, J. (2020). Continuously controllable  photoconductance in freestanding BiFeO3 by the macroscopic flexoelectric  effect. Nature communications, 11(1), 1-9.

6. Chen, S., Shu, X.,  Xie, Q., Zhou, C., Zhou, J., Deng, J., ... & Jingsheng, C. H. E. N.  (2020). Structure, magnetic and thermal properties of FePt-C-BN  granular films for heat assisted magnetic recording. Journal of Physics D: Applied Physics, 53,13.

2019

1. Shu, X., Zhou, J., Deng, J., Lin, W., Yu, J., Liu, L., Zhou, C., Yang, P., and Chen, J. (2019). Spin-orbit torque in chemically disordered and L1₁-ordered Cu_100−xPt_x. Physical Review Materials, 3(11), 114410.

2. Lu, Y., Shu, X.,  Li, Z., Long, H., Kong, D., Sun, S., ... & Han, X. (2019). In situ  investigation of synchronized dislocation array nucleation and phase  transformation at mode I-II cracks of single-crystalline Mo. Journal of Alloys and Compounds, 806, 283-291.

3. Liu, L., Qin, Q., Lin, W., Li, C., Xie, Q., He, S., Shu, X., ... & Lu, W. (2019). Current-induced magnetization switching in all-oxide heterostructures. Nature nanotechnology, 14(10), 939-944.

4. Chen, S., Yu, J., Xie, Q., Zhang, X., Lin, W., Liu, L., Zhou, J., Shu, X., ... & Chen, J. (2019). Free Field Electric Switching of Perpendicularly Magnetized Thin Film by Spin Current Gradient. ACS applied materials & interfaces, 11(33), 30446-30452.

5. Zhou, J., Wang, X., Liu, Y., Yu, J., Fu, H., Liu, L., Chen, S., Deng, J., Lin, W., Shu, X., ...  & Yoong, H. Y. (2019). Large spin-orbit torque efficiency enhanced  by magnetic structure of collinear antiferromagnet IrMn. Science advances, 5(5), eaau6696.

6. Xie, Q., Lin, W., Yang, B., Shu, X., Chen, S., Liu, L., ... & Zhang, Z. (2019). Giant Enhancements of Perpendicular Magnetic Anisotropy and Spin‐Orbit Torque by a MoS2 Layer. Advanced Materials, 31(21), 1900776.

7. Qin, Q., Liu, L., Lin, W., Shu, X., Xie, Q., Lim, Z., ... & Chen, J. (2019). Emergence of topological Hall effect in a SrRuO3 single layer. Advanced Materials, 31(8), 1807008.

2018

1. Lu, Y.^†, Shu, X. ^†, & Liao, X. (2018). Size effect for achieving high mechanical performance body-centered cubic metals and alloys. Science China Materials, 61(12), 1495-1516.

2. Kong, D., Xin, T., Sun, S., Lu, Y., Shu, X.,  Long, H., ... & Han, X. (2018). Surface energy driven  liquid-drop-like pseudoelastic behaviors and in situ atomistic  mechanisms of small-sized face-centered-cubic metals. Nano letters, 19(1), 292-298.

3. Li, D., Shu, X.,  Kong, D., Zhou, H., & Chen, Y. (2018). Revealing the atomistic  deformation mechanisms of face-centered cubic nanocrystalline metals  with atomic-scale mechanical microscopy: A review. Journal of Materials Science & Technology, 34(11), 2027-2034.

4. Li, Y., Yang, Y., Shu, X.,  Wan, D., Wei, N., Yu, X., ... & Li, S. (2018). From Titanium  Sesquioxide to Titanium Dioxide: Oxidation-Induced Structural, Phase,  and Property Evolution. Chemistry of Materials, 30(13), 4383-4392.

2017

1. Shu, X., Kong, D., Lu, Y., Long, H., Sun, S., Sha, X., Zhou, H., Chen, Y., Mao, S., and Liu, Y. (2017). Size effect on the deformation mechanisms of nanocrystalline platinum thin films. Scientific reports, 7(1), 1-11.

2. Shu, X.,  Lu, Y., Xin, T., Li, Z., Chen, Y., Zhou, H., ... & Liao, X. (2017).  In-situ investigation of dislocation tangle–untangle processes in  small-sized body-centered cubic Nb single crystals. Materials Letters, 198, 16-18.

3. Wang, L., Xin, T., Kong, D., Shu, X.,  Chen, Y., Zhou, H., ... & Han, X. (2017). In situ observation of  stress induced grain boundary migration in nanocrystalline gold. Scripta Materialia, 134, 95-99.

4. Ma, Y., Lu, Y., Kong, D., Shu, X.,  Deng, Q., Zhou, H., ... & Wang, L. (2017). Ultra-large elongation  and dislocation behavior of nano-sized tantalum single crystals. Aip Advances, 7(4), 045218.

2016

1. Wang, L., Kong, D., Xin, T., Shu, X.,  Zheng, K., Xiao, L., ... & Zou, J. (2016). Deformation mechanisms  of bent Si nanowires governed by the sign and magnitude of strain. Applied Physics Letters, 108(15), 151903.
   

2022   第71批博士后面上项目             项目负责人

2023   国家自然科学基金重点研发项目     骨干参与者

2026   浙江省自然科学基金青年项目         项目负责人

2026   浙江省尖兵计划                     骨干参与者

2026   自旋全国重点实验室开放基金         项目负责人

1. 磁性极化金属及其制备方法和应用 CN202311387760.8 

2. 自旋力矩调控可原位切换的微波/直流磁场探测系统 202511354367.8

    2022/07    国际交流计划引进人才（国家级---人社部）

    2023/07    海外水木学者（清华大学）

    2024/02    海外引才专项（国家级---教育部）