张伸，博士

    特别研究助理

   邮箱：zhangshen@nimte.ac.cn

研究方向：

    1. 通信用旋磁材料制备技术；2.环行器器件制备与测试。

学习工作经历：       

   2024.02~至今：中国科学院宁波材料技术与工程研究所，博士后；

   2018.09~2024.01：中国科学院物理研究所，博士；

   2014.09~2018.06：中国科学院大学，学士。

承担及参与项目列表：

1. 国家科技部, “变革性技术”重点研发计划, 2019YFA0704904, 高效热电磁全固态能源转换新材料与器件研究, 2019-12 至 2023-11，参与；
2. 国家自然科学基金委员会, 面上项目, 11974394, 磁性外尔半金属Co3Sn2S2的低维拓扑磁电输运研究,2020-01 至 2023-12，参与；
3. 中国科学院, 重大科研仪器研制项目, ZDKYYQ20210003, 量子物态极限环境热物性测量系统, 2021-01至2024-01，参与；

文章列表：

1. Zhang, S., Wang, Y. B., Zeng, Q. Q., Shen, J. L., Zheng, X. Q., Yang, J. Y., Wang, Z. S., Xi, C. Y., Wang, B. B., Zhou, M., Huang, R. J., Wei, H. X., Yao, Y., Wang, S. G., Parkin, S. S. P., Felser, C., Liu, E. K. & Shen, B. G. Scaling of Berry-curvature monopole dominated large linear positive magnetoresistance. P Natl Acad Sci USA 119, e2208505119 (2022).
2. Shen, J., Zhang, S., Liang, T., Wang, J., Zeng, Q., Wang, Y., Wei, H., Liu, E. & Xu, X. Intrinsically enhanced anomalous Hall conductivity and Hall angle in Sb-doped magnetic Weyl semimetal Co₃Sn₂S₂. APL Mater 10, 090705 (2022).
3. Zhao, J., Jiang, B., Zhang, S., Wang, L., Liu, E., Li, Z. & Wu, X. Magnetoresistance signature of two-dimensional electronic states in Co₃Sn₂S₂. Phys Rev B 107, 085203 (2023).
4. Yin, Z. X., Du, X., Zhang, S., Chen, C., Pei, D., Zhou, J. S., Gu, X., Xu, R. Z., Zhang, Q. Q., Zhao, W. X., Li, Y. D., Xu, Y. F., Bernevig, A., Liu, Z. K., Liu, E. K., Chen, Y. L. & Yang, L. X.Electronic structure of antiferromagnetic Dirac semimetal candidate GdIn₃. Phys Rev Mater 6, 084203 (2022).
5. Shen, J., Zeng, Q., Zhang, S., Sun, H., Yao, Q., Xi, X., Wang, W., Wu, G., Shen, B., Liu, Q. & Liu, E. 33% Giant Anomalous Hall Current Driven by Both Intrinsic and Extrinsic Contributions in Magnetic Weyl Semimetal Co₃Sn₂S₂. Adv Funct Mater 30, 2000830 (2020).
6. Shen, J. L., Zeng, Q. Q., Zhang, S., Tong, W., Ling, L. S., Xi, C. Y., Wang, Z. S., Liu, E. K., Wang, W. H., Wu, G. H. & Shen, B. G. On the anisotropies of magnetization and electronic transport of magnetic Weyl semimetal Co₃Sn₂S₂. Appl Phys Lett 115, 212403 (2019).
7. Jiang, B. Y., Zhao, J. J., Qian, J. Y., Zhang, S., Qiang, X. B., Wang, L. J. Y., Bi, R., Fan, J. W., Lu, H. Z., Liu, E. K. & Wu, X. S. Antisymmetric Seebeck Effect in a Tilted Weyl Semimetal. Phys Rev Lett 129, 056601 (2022).
8. Liu, Y., Lyu, M., Liu, J., Zhang, S., Yang, J., Du, Z., Wang, B., Wei, H. & Liu, E. Structural Determination, Unstable Antiferromagnetism and Transport Properties of Fe-Kagome Y_0.5Fe₃Sn₃ Single Crystals. Chinese Phys Lett 40, 047102 (2023).
9. Shen, J., Gao, J., Yi, C., Li, M., Zhang, S., Yang, J., Wang, B., Zhou, M., Huang, R., Wei, H., Yang, H., Shi, Y., Xu, X., Gao, H.-J., Shen, B., Li, G., Wang, Z. & Liu, E. Magnetic-field modulation of topological electronic state and emergent magneto-transport in a magnetic Weyl semimetal. The Innovation 4, 100399 (2023).
10. Wang, J., Shen, J., Wang, Y., Liang, T., Wang, X., Zu, R., Zhang, S., Zeng, Q., Liu, E. & Xu, X. Anisotropic magneto-transport behavior in a hexagonal ferromagnetic EuCuP single crystal. J Alloy Compd 947, 169620 (2023).
11. Liu, J., Wang, Y., Dong, X., Yang, J., Zhang, S., Lyu, M., Wang, B., Wei, H., Wang, S., Liu, E., Shen, B. Topological nodal chains and transverse transport in the centrosymmetric ferromagnetic semimetal FeIn2S4. Phys Rev B 109, 235144 (2024).

 申请专利：

1. 刘恩克，张伸，王彬彬，CoS₂作为反常霍尔和线性正磁电阻效应材料的应用，发明专利，中国科学院物理研究所，申请号：202210473333.0.