×

客座研究员

当前位置:首页 / 客座研究员

汤进

客座研究员

研究方向:自旋电子学
E-mail:jintang@ahu.edu.cn

个人简介

国家高层次人才、安徽大学物理学院教授、博士生导师。2012年于电子科技大学获得应用物理学理学学士学位,2017年7月于中国科学院物理研究所获得凝聚态物理理学博士学位,随后在中国科学院强磁场科学中心从事科研工作,2022年2月加入安徽大学,2024年获得国家优秀青年科学基金项目,2025年获得教育部U40青年科技人才高强度稳定支持项目。主要研究方向包括:(1) 拓扑磁性与自旋电子学; (2) 磁性薄膜与功能器件; (3) 稀土应用磁性材料。主要研究成果包括新型拓扑磁结构“磁束子”等的构筑、反铁磁太赫兹THz动力学强激发的实现、拓扑磁结构的电调控和电探测等,以第一/通讯作者身份在期刊Nature Nanotechnology、Nature Communications、National Science Review、Science Bulletin、Advanced Materials、Acta Materialia、Advanced Functional Materials、Nano Letters、ACS Nano、Advanced Science、CPL、Applied Physics Reviews、PRB和APL等发表学术论文多篇,主持基金委、科技部、教育部和安徽省等多项课题。

代表性论文、著作和专利等:(*通讯作者,#共同第一作者)

2026:

[1] Zhang Yongsen#; Wei Liu#; Shi Meng; Wu Yaodong*; Jiang Jialiang; Qiu Sheng; Zhang Huanhuan; Han Hui; Tian Mingliang; Du Haifeng; Wang Shouguo* & Tang Jin*. Fresnel Magnetic Imaging of Ultrasmall Skyrmion Lattices. Advanced Science 13(4): e09786 (2026).

[2] Zhang Huanhuan#; Ke YaJiao#*; Wang Weiwei; Kong Lingyao; Chen Lin; Qiu Sheng; Jiang Jialiang; Zhang Yongsen; Peng Youhong; Wu Yaodong*; Tian Mingliang; Du Haifeng* & Tang Jin*.Ferrimagnetic Skyrmions in A Tetragonal Mn1.9Co0.1Sb Single Crystal at Room Temperature.Advanced Functional Materials e21544 (2026).

[3] Zhang Yongsen#; Liu Wei#; Shi Meng; Zhang Shuisen; Qiu Sheng; Wu Yaodong*; Jiang Jialiang; Zhang Huanhuan; Han Hui; Wang Kang*; Shao Dingfu; Zi Zhenfa; Ma Chao; Du Haifeng; Tian Mingliang; Wang Shouguo* & Tang Jin*. Enhanced Curie temperature and room-temperature 50-nm skyrmions achieved in hexagonal ferromagnet Mn5Ge3.2 synthesized via a high-pressure method. Science China-Physics Mechanics & Astronomy 69(4): 247511 (2026).

[4] Liu Sinan; Pan Chuandi; Wang Chunsheng; Wang Hengning; Feng Dongna; Zhang Gaojie; Wu Hao; Chang Haixin; Zhang Huanhuan; Tang Jin*; Sun Qilong*; Zheng Guolin* & Tian Mingliang. Strain-tunable interlayer magnetic coupling in van der Waals ferromagnet Fe3GaTe2 nanoflakes. Chinese Physics Letters DOI 10.1088/0256-307X/43/4/040710 (2026).

[5] Kong Lingyao; Zhang Chunhui; Wang Weiwei; Wu Yaodong* &Tang Jin*. Analytic quantifying chirality of Neel-type spin twists using interactions between stray fields and magnetic tips. Physical Review B 113, 094419 (2026).

[6] Zhang Yu#; Li Shilin#*; Peng Youhong; Wu Yaodong; Xing Yuqing; Liu Tao; Zhang Shunshun; Cai Sitian; Bai Suo; Liu Yanli; Wu Qiong*; Yue Ming; Du Haifeng & TangJin*. Overcoming Thickness Limits in Grain Boundary Diffusion Magnets via a Bonding-Diffusion Process. Advanced Materials Technologies 8021464 (2026).

[7] Li Shilin; Peng Youhong; Wu Yaodong; Xing Yuqing; Zhang Yu; Liu Tao; Cai Sitian; Wu Qiong*; Yue Ming; Du Haifeng* & Tang Jin*. Enhancement in Nd-Fe-B Magnets via Sn-Doped DyF3 Grain Boundary Diffusion. Materials & Design 265:115868 (2026).

[8] Liu Tao#; Li Shilin#*; Zhang Yu; Tong Huacheng; Peng Youhong; Wu Yaodong; Bai Suo; Xing Yuqing; Xu Da; Zhang Shunshun; Wang Yegang; Dong Lanhao; Zhang Mengchao; Zhang Shengrong; Liu Yanli; Cai Sitian; Wu Qiong*; Yue Ming Yue; Du Haifeng &Tang Jin*. Effect of Zn-Li-Mn grain boundary diffusion on magnetic and corrosion resistance of sintered Nd-Fe-B magnets. Journal of Magnetism and Magnetic Materials641: 173861 (2026).

[9] Wu Qiong#; Cai Sitian#; Shi Dawei#; Li Shilin; Liu Weiqiang; Li Yuqing; Wang Zhanjia; Liao Jingwen; Liao Zongbo; Tang Jin*; Huang Qingfang*& Yue Ming*. Industrialization of one-step grain boundary diffusion method to achieve optimized core-shell structure and magnetic performance. Materials Science and Engineering: B 327: 119290 (2026).

2025:

[1] Wu Yaodong; Jiang Jialiang*; Kong Lingyao; Liu Wei; Zhang Huanhuan; Wang Shouguo; Tian Mingliang; Du Haifeng* & Tang Jin*. Current-controlled creations, deletions, and topological transformations of a single magnetic antiskyrmion in nanostructured cells. Nature Communications 16, 11626 (2025).

[2] Xue Wuhong#*; Wang Tao#; Yang Huali#; Zhang Huanhuan; Dai Guohong; Zhang Sheng; Yang Ruilong; Quan Zhiyong; Li Run-Wei; Tang Jin*; Song Cheng* & Xu Xiaohong*. Stable antivortices in multiferroic ε-Fe2O3 with the coalescence of misaligned grains. Nature Communications 16, 440 (2025).

[3] Tang Jin*; Jiang Jialiang; Wu Yaodong*; Kong Lingyao; Wang Yihao; Li Junbo; Soh Yona; Xiong Yimin; Wang Shouguo; Tian Mingliang & Du Haifeng*. Creating and Deleting a Single Dipolar Skyrmion by Surface Spin Twists. Nano Letters 25(1), 121-128 (2025).

[4] Jiang Jialiang#; Wu Yaodong#*; Kong Lingyao; Zhang Yongsen; Qiu Sheng; Zhang Huanhuan; Ke Yajiao*; Wang Shouguo; Tian Mingliang & Tang Jin*. Stable Néel-Twisted Skyrmion Bags in a van der Waals Magnet Fe3-xGaTe2 at Room Temperature. Nano Letters 25(8), 3282-3290 (2025).

[5] Wu Yaodong#; Jiang Jialiang#; Wang Weiwei; Kong Lingyao; Wang Shouguo; Tian Mingliang; Du Haifeng* & Tang Jin*. Skyrmion Sliding Switch in a 90 nm-Wide Nanostructured Chiral Magnet. Nano Letters 25(17), 7012–7019 (2025).

[6] Jiang Jialiang; Wu Yaodong*; Kong Lingyao; Zhang Yongsen; Qiu Sheng; Zhang Huanhuan; Wang Yihao; Li Junbo; Xiong Yimin; Wang Shouguo; Tian Mingliang; Du Haifeng* & Tang Jin*. Deterministic Electrical Control of Single Magnetic Bubbles in Nanostructured Cells. Advanced Functional Materials 35, 2422342 (2025).

[7] Li Shilin; Peng Youhong*; Zhang Yu; Liu Tao; Cai Sitian; Wu Qiong*; Yue Ming; Du Haifeng & Tang Jin*. Enhancing Coercivity and Thermal Stability in High-Remanence Nd-Fe-B Magnets via TbF3 Grain Boundary Diffusion. Acta Materialia 301, 121176 (2025).

[8] Zhang Yongsen; Wu Yaodong*; Shi Meng; Xu Xitong; Wang Kang*; Wang Shouguo* & Tang Jin*. Controlled topological transitions between individual skyrmions and bubbles in a Fe1.96Ni0.84Pd0.2P nanodisk. Applied Physics Reviews12(2), 021405 (2025).

[9] Qiu Sheng; Wu Yaodong; Yang Huali; Li Run-Wei; Tian Mingliang; Du Haifeng; Wu D.* & Tang Jin*. Magnetic skyrmions on flexible substrates. Applied PhysicsLetters126(14), 142404 (2025).

[10] Wu Yaodong; Xing Ke-Ai; Liu Boyu; Wang Wei; Ke Yajiao; Hu Jiyu; Meng Ying; Ma Yuan; Tong Haiyun; Zi Zhenfa*; Qu Zhe* & Tang Jin*. Fe doping effect on magnetism and magnetocaloric effects of GdSc1-xFexO3. Ceramics International 51(16), 21664–21674 (2025).

2024:

[1] Zhang Yongsen#; Tang Jin#*; Wu Yaodong; Shi Meng; Xu Xitong; Wang Shouguo; Tian Mingliang & Du Haifeng*. Stable skyrmion bundles at room temperature and zero magnetic field in a chiral magnet. Nature Communications 15, 3391 (2024).

[2] Jiang Jailiang#; Tang Jin#*; Bai Tian; Wu Yaodong; Qin Jiazhuan; Xia Weixing; Chen Renjie; Yan Aru; Wang Shouguo; Tian Mingliang & Du Haifeng*. Thermal Stability of Skyrmion Tubes in Nanostructured Cuboids. Nano Letters 24(5), 1587-1593 (2024).

[3] Kong Lingyao; Tang Jin*; Wu Yaodong; Wang Weiwei; Jiang Jialiang; Wang Yihao; Li Junbo; Xiong Yimin; Wang Shouguo; Tian Mingliang & Du Haifeng. Diverse helicities of dipolar skyrmions. Physical Review B 109(1), 014401 (2024).

2023:

[1] Tang Jin; Wu Yaodong*; Jiang Jialiang; Kong Lingyao; Wang Shouguo; Tian Mingliang & Du Haifeng*. Skyrmion‐Bubble Bundles in an X‐Type Sr2Co2Fe28O46 Hexaferrite above Room Temperature. Advanced Materials 35(47), 2306117 (2023).

[2] Tang Jin; Jiang Jialiang; Wang Ning; Wu Yaodong; Wang Yihao; Li Junbo; Soh Yona; Xiong Yimin; Kong Lingyao; Wang Shouguo; Tian Mingliang & Du Haifeng*. Combined Magnetic Imaging and Anisotropic Magnetoresistance Detection of Dipolar Skyrmions. Advanced Functional Materials 33(4), 2207770 (2023). Selected as Back Cover.

[3] Tang Jin*; Wu Yaodong; Jiang Jialiang; Kong Lingyao; Liu Wei*; Wang Shouguo; Tian Mingliang & Du Haifeng*. Sewing skyrmion and antiskyrmion by quadrupole of Bloch points. Science Bulletin 68(23), 2919-2923 (2023).

[4] Jiang Jialiang#; Tang Jin#*; Wu Yaodong; Zhang Qi; Wang Yihao; Li Junbo; Xiong Yimin; Kong Lingyao; Wang Shouguo; Tian Mingliang & Du Haifeng*. Current‐Controlled Skyrmion Number in Confined Ferromagnetic Nanostripes. Advanced Functional Materials 33(52), 2304044 (2023). Selected as Back Cover.

[5] Kong Lingyao#; Tang Jin#*; Wang Weiwei; Wu Yaodong; Jiang Jialiang; Wang Yihao; Li Junbo; Xiong Yimin; Tian Mingliang & Du Haifeng*. Observation of hybrid magnetic skyrmion bubbles in Fe3Sn2 nanodisks. Physical Review B 107(17), 174425 (2023). Editors Suggestion.

2022:

[1] Zhao Xuebing#; Tang Jin#; Pei Ke; Wang Weiwei; Lin Shi-Zeng*; Du Haifeng*; Tian Mingliang & Che Renchao*. Current-Induced Magnetic Skyrmions with Controllable Polarities in the Helical Phase. Nano Letters 22(22), 8793-8800 (2022).

[2] Wu Yaodong; Jiang Jialiang & Tang Jin*. Current-driven dynamics of skyrmion bubbles in achiral uniaxial magnets. Chinese Physics B, 31(7), 077504 (2022).

[3] Wu Yaodong; Duan Weiwei; Li Qiuyue; Qin Yongliang; Zi Zhenfa* & Tang Jin*. Magnetic and magnetocaloric effect in a stuffed honeycomb polycrystalline antiferromagnet GdInO3. Chinese Physics B, 31(6), 067501 (2022).

2021:

[1] Tang Jin; Wu Yaodong; Wang Weiwei; Kong Lingyao; Lv Boyao; Wei Wensen; Zang Jiadong; Tian Mingliang & Du Haifeng*. Magnetic skyrmion bundles and their current-driven dynamics. Nature Nanotechnology 16, 1086–1091 (2021).

[2] Wei Wensen#; Tang Jin#*; Wu Yaodong; Wang Yihao; Jiang Jialiang; Li Junbo; Soh Yona; Xiong Yimin; Tian Mingliang & Du Haifeng. Current-Controlled Topological Magnetic Transformations in a Nanostructured Kagome Magnet. Advanced Materials 33(33), 2101610 (2021).

[3] Tang Jin; Wu Yaodong; Kong Lingyao; Wang Weiwei; Chen Yutao; Wang Yihao; Soh Y.; Xiong Yimin; Tian Mingliang & Du Haifeng*. Two-dimensional characterization of three-dimensional nanostructures of magnetic bubbles in Fe3Sn2. National Science Review 8(6), nwaa200 (2021).

[4] Jiang Jialiang; Wu Yaodong; Kong Lingyao; Wang Yihao; Li Junbo; Xiong Yimin & Tang Jin*. Magnetic kπ-skyrmions and their field-driven evolutions in a nanostructured centrosymmetric magnet. Acta Materialia 215, 117084 (2021).

[5] Zhu Jin#; Wu YaoDong#; Hu QiYang; Kong LingYao; Tang Jin*; Tian MingLiang & Du HaiFeng. Current-driven transformations of a skyrmion tube and a bobber in stepped nanostructures of chiral magnets. Science China: Physics, Mechanics & Astronomy,64(2), 227511 (2021).

[6] Chen Yutao; Lv Boyao; Wu Yaodong; Hu Qiyang; Li Junbo; Wang Yihao; Xiong Yimin; Gao Jianhua; Tang Jin*; Tian Mingliang & Du Haifeng. Effects of tilted magnetocrystalline anisotropy on magnetic domains in Fe3Sn2 thin plates. Physical Review B 103(21), 214435 (2021).

[7] Wu Yaodong; Tang Jin*; Lyu Boyao; Kong Lingyao; Wang Yihao; Li Junbo; Soh Y.; Xiong Yimin; Tian Mingliang & Du Haifeng. Stabilization and topological transformation of magnetic bubbles in disks of a kagome magnet. Applied Physics Letters 119(1), 012402 (2021).

[8] Wu Yaodong; Kong Lingyao; Wang Yihao; Li Junbo; Xiong Yimin & Tang Jin*.A strategy for the design of magnetic memories in bubble-hosting magnets. Applied Physics Letters 118(12), 122406 (2021).

[9] 汤进,吴耀东,熊奕敏,田明亮 & 杜海峰*. 透射电镜差分相位分析技术磁畴研究。中国材料进展, 40(11), 851 (2021)

2020年及以前:

[1] Tang Jin;Ke Yajiao; He Wei; Zhang Xiangqun; Zhang Wei; Li Na; Zhang Yongsheng; Li Yan & Cheng Zhaohua*. Ultrafast Photoinduced Multimode Antiferromagnetic Spin Dynamics in Exchange-Coupled Fe/RFeO3 (R = Er or Dy) Heterostructures. Advanced Materials 30(27), 1706439 (2018).

[2] Tang Jin; Kong Lingyao; Wu Yaodong; Wang Weiwe; Chen Yutao; Wang Yihao; Li Junbo; Soh Yona; Xiong Yimin; Tian Mingliang & Du Haifeng*. Target Bubbles in Fe3Sn2 Nanodisks at Zero Magnetic Field. ACS Nano 14(9), 10986-10992 (2020). Highlighted In-Nano.

[3] Cao Yongze#; Zhao Yue#; Tang Jin*; Du Haifeng; Zhou Yan* & Saito Hitoshi. Direct visualization of magnetic domain wall motion in Nd-Fe-B magnets by alternating magnetic force microscopy using Co-GdO superparamagnetic tip. Ultramicroscopy, 212, 112980 (2020).

[4] Tang Jin; Kong Lingyao; Wang Weiwei*; Du Haifeng & Tian Mingliang. Lorentz transmission electron microscopy for magnetic skyrmions imaging. Chinese Physics B, 28(8), 087503 (2019).

[5] Wang Shasha; Tang Jin*; Wang Weiwei; Kong Lingyao; Tian Mingliang & Du Haifeng. Electrical Detection of Magnetic Skyrmions. Journal of Low Temperature Physics,197, 321 (2019).

[6] Tang Jin; Ke Ya-Jiao; He Wei; Zhang Xiang-Qun; Zhang Yong-Sheng; Zhang Wei; Li Yan; Ahmad S. Sheraz & Cheng Zhao-Hua*. The effects of interfacial exchange coupling in Fe/ErFeO3 heterostructures. Journal of Physics D: Applied Physics, 50(20), 205001 (2017).

[7] Tang Jin; He Wei; Zhang Yong-Sheng; Zhang Wei; Li Yan; Ahmad S. Sheraz; Zhang Xiang-Qun & Cheng Zhao-Hua*. Thickness-induced spin-reorientation originated from competing magnetic shape anisotropies. AIP Advances,7(5), 056311 (2017).

[8] Tang Jin; He Wei; Zhang Yong-Sheng; Li Yan; Zhang Wei; Ahmad S. Sheraz; Zhang Xiang-Qun & Cheng Zhao-Hua*. Tunable in-plane spin orientation in Fe/Si (557) film by step-induced competing magnetic anisotropies. Chinese Physics B, 25(12), 127501 (2016).

学术荣誉

教育部U40(2025)、国家优青(2024)、安徽省优青(2023)、安徽省高校优青(2022)