个人简介

2011-至今 南京航空航天大学 副教授 2016-2017年 日本国立材料研究所（NIMS）访问学者 2004-2009年 南京大学 博士 研究方向： 学科研究方向一：凝聚态物理 金属智能材料 纳米磁性功能材料 学科研究方向二：理论物理 金属智能材料 纳米磁性功能材料 发表学术论文,出版专著情况： 目前主要从事纳米磁性功能材料和金属智能材料的研究工作，已在Applied Physics Letters、Journal of Applied Physics、Crystal Growth & Design、IEEE Transactions on Magnetics等国际一流刊物上发表SCI、EI收录论文50余篇, 所发表论文被引用400余次。 科研成果获奖及专利： MATERIALS RESEARCH BULLETIN 十佳审稿人；授权国家发明专利2项 承担的科研项目情况： 1. 国家自然科学基金青年科学基金项目，51001061，2011年1月-2013年12月 20万元 镨基立方Laves相大块纳米晶的合成及超磁致伸缩效应的研究，已结题，主持 2. 国家自然科学基金面上项目 11475086 2015年1月—2018年12月 98万元 铁基智能材料准同型相界的穆斯堡尔谱及磁弹机制研究， 在研，主持 3.主持基本科研业务费5项 4.参与国家自然科学基金重点项目1项 磁致伸缩材料在外磁场作用下，其长度发生变化，可产生位移而做功；在交变磁场下可反复伸长与缩短，从而产生振动或声波。稀土超磁致伸缩材料能够实现电磁能和机械能之间的高效转换，其伸缩量比锆钛酸铅压电陶瓷大5~8倍，能量密度大25~30倍，并且在功率、响应频率、低压效果及可靠性方面都比压电陶瓷优良。因此，稀土超磁致伸缩材料被广泛应用于声纳、机器人、汽车、制动器、控制器、换能器、传感器、微位移器、阀门、防震装置等领域。磁致伸缩材料的广泛应用必将导致一系列控制及执行元件的革命。 教育经历 1998.9 -- 1999.6育才中学 普通高中毕业 工作经历 2009.6 -- 至今南京航空航天大学 科研项目 [1] 具有超大磁致**性应变效应的新材料研究 [2] 用于微致动器超灵敏致伸缩薄膜的研究 [3] 新型择优取向轻稀土基磁致伸缩材料的高压合成及性能研究 [4] 锰基金属化合物的磁相变和磁制冷效应的研究 [5] 铁基智能材料准同型相界的穆斯堡尔谱及磁弹机制研究 [6] 轻稀土镨基立方LAVES相合金的合成及室温磁致伸缩效应的研究 [7] 镨基立方Laves相大块纳米晶的合成及超磁致伸缩效应的研究

研究领域

[1] 纳米磁性材料 [2] 金属智能材料 金属智能材料

磁学

近期论文

查看导师新发文章 （温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

1. C.C. Hu, T.N. Yang, H.B. Huang, J.M. Hu, J.J. Wang, Y. G. Shi*, D.N. Shi and L.Q. Chen, “Phase-field simulation of domain structures and magnetostrictive response in Tb1−xDyxFe2 alloys near morphotropic phase boundary” Applied Physics Letters 108 (14), 141908 (2016). 2. Y. G. Shi*, Z.Y.Chen L.Wang, Q. Pan and D. N. Shi, " synthesis and magnetostrictive properties of Pr1−xDyx(Fe0.8Co0.2)1.93 cubic Laves compounds AIP Advances 6, 056207 (2016). 2. C. C. Hu, Y. G. Shi*, D.N. Shi, L. Q. Chen, " Synthesis, magnetic properties and magnetostriction of Pr(Fe0.75Co0.15Cu0.01Nb0.04B0.05)1.93 bulk nanocrystalline synthesized under high pressure AIP Advances 6, 056215 (2016) 3. Z. Y. Chen, Y. G. Shi*, L. Wang, Q. Pan, H. F. Li and D. N. Shi, "Structure and magnetic properties of melt-spun Tb0.2Nd0.8(Fe0.8Co0.2)(1.9) compound Journal of Alloys and Compounds 656, 259-262 (2016). 4. X. G. Zhou, Y. G. Shi*, Y. Zhu and D. N. Shi, "Complex magnetism of Mn-based Pnma ternary alloys: Three exchange interactions induced by the position of Mn atoms Physics Letters A 379(38), 2370-2373 (2015). 5. Y. G. Shi*, Q. Pan, G. B. Zhang, Y. Zhu, J. Y. Fan and D. N. Shi, "Critical Behavior at Paramagnetic to Ferromagnetic Phase Transition in MnFeGe Compound Journal of Superconductivity and Novel Magnetism 28(5), 1611-1615 (2015). 6. Q. Pan, Y. G. Shi*, Z. Y. Chen, C. C. Hu, C. X. Kan and D. N. Shi, "Structure, magnetic and magnetostrictive properties in high-pressure synthesized Tb0.1Nd0.9 (Fe1-xMnx)(1.9) alloys Optoelectronics and Advanced Materials-Rapid Communications 9(1-2), 94-97 (2015). 7. C. C. Hu, Y. G. Shi*, Z. Y. Chen, D. N. Shi, L. Q. Chen and C. X. Kan, "Microstructure and magnetostriction of PrFe1.93Zr0.02 nanocrystalline synthesized under high pressure Journal of Alloys and Compounds 619, 195-199 (2015). 8. C. C. Hu, Y. G. Shi*, Z. Y. Chen, D. N. Shi, S. L. Tang and Y. W. Du, "Synthesis, magnetic properties and magnetostriction of Pr0.5Nd0.5(Fe1-xCox)(1.9) cubic Laves alloys Journal of Alloys and Compounds 613, 153-156 (2014). 9. C. C. Hu, Y. G. Shi*, D. N. Shi, X. G. Zhou, J. Y. Fan, L. Y. Lv and S. L. Tang, "Optimization on magnetic transitions and magnetostriction in TbxDyyNdz(Fe0.9Co0.1)(1.93) compounds Journal of Applied Physics 114(14), 143906 (2013). 10. C. C. Hu, Y. G. Shi*, D. N. Shi, S. L. Tang, J. Y. Fan and Y. W. Du, "Anisotropy compensation and magnetostrictive properties in Tb-x Dy1-x(Fe0.9Mn0.1)(1.93) Laves compounds: Experimental and theoretical analysis Journal of Applied Physics 113(20), 203906 (2013). 11. T. F. Zheng, Y. G. Shi*, J. Y. Fan, D. N. Shi, S. L. Tang, L. Y. Lv and W. Zhong, "Critical behavior and the universal curve for magnetocaloric effect in textured Mn5Ge3-xAlx ribbons Journal of Applied Physics 113(17), 17A944 (2013). 12. Y. G. Shi*, C. C. Hu, X. G. Zhou, J. Y. Fan, D. N. Shi, L. Y. Lv and S. L. Tang, "Structure, magnetic properties and magnetostriction in NdFe1.9 bulk nanocrystalline alloys Journal of Alloys and Compounds 563, 289-292 (2013). 13. T. F. Zheng, Y. G. Shi*, J. B. Li, J. Y. Fan, D. N. Shi, L. Y. Lv and S. L. Tang, "Magnetic critical behavior of Mn5Ge3 ribbons Physica Status Solidi B-Basic Solid State Physics 250(7), 1445-1448 (2013). 14. Y. G. Shi*, X. G. Zhou, C. C. Hu, D. N. Shi, L. Y. Lv and S. L. Tang, "Magnetostrictive properties of Tb-x(Pr0.5Nd0.5)(1-x)Fe-1.93 cubic Laves alloys Journal of Alloys and Compounds 581, 753-756 (2013). 15. Y. G. Shi*, L. S. Xu, X. G. Zhou, Z. Y. Chen, T. F. Zheng and D. N. Shi, "Magnetostructural phase transition in Ga-doped MnNiGe compounds Physica Status Solidi a-Applications and Materials Science 210(12), 2575-2578 (2013). 16. C. C. Hu, Y. G. Shi*, T. F. Zheng, J. Y. Fan, D. N. Shi, L. Y. Lv and S. L. Tang, "Structural, magnetic and magnetostrictive behavior in Nd(Fe1-xCox)(1.9) compounds Journal of Applied Physics 112(6), (2012). 17. Y. G. Shi*, C. C. Hu, J. Y. Fan, D. N. Shi, L. Y. Lv and S. L. Tang, "Synthesis and magnetostrictive properties of Pr(Fe1.95B0.05)(1.93) bulk nanocrystalline alloy Applied Physics Letters 101(19), 192405 (2012). 18. T. F. Zheng, Y. G. Shi*, C. C. Hu, J. Y. Fan, D. N. Shi, S. L. Tang and Y. W. Du, "Magnetocaloric effect and transition order of Mn5Ge3 ribbons Journal of Magnetism and Magnetic Materials 324(23), 4102-4105 (2012). 19. Y. G. Shi*, L. Zhai, Y. Wang, J. Y. Fan, D. N. Shi, S. L. Tang and Y. W. Du, "Structure and magnetostriction of Ho1-xPrxFe1.9 alloys Journal of Magnetism and Magnetic Materials 324(8), 1627-1630 (2012). 20. Y. G. Shi*, R. Xie, X. S. Qi, J. Y. Fan, S. L. Tang, W. Zhong and Y. W. Du, "Synthesis and Magnetostrictive Properties of High-Pr Content Sm1-xPrxFe1.9 Cubic Laves Alloys Ieee Transactions on Magnetics 47(10), 2890-2892 (2011). 21. Y. G. Shi*, L. Zhai, S. L. Tang and R. J. Chen, "Magnetostriction in high-pressure synthesized PrxNd1-xFe1.9 (0 < ="x" <="1)" alloys journal of applied physics 109(7), (2011). 2011年之前发表论文： 22. Y. G. Shi*, S. L. Tang, L. Y. Lv and J. Y. Fan, “Magnetic and magnetostrictive properties in high-pressure synthesized Dy1-xPrxFe1.9(0 ≤ x ≤ 1) cubic Laves alloys” Journal of Alloys and Compounds 506 (2010) 533-536 23. Y. G. Shi, S. L. Tang, J. Y. Yu, L. Zhai, X. K. Zhang, Y. W. Du, and C. P. Yang, “Synthesis and magnetic properties of TbxPr1-x(Fe0.8Co0.2)1.9 alloys,” Journal of Applied Physics 105, (2009) 07A925. 24. Y. G. Shi, S. L. Tang, L. Zhai, H. B. Huang, R. L. Wang, J. Y. Yu, and Y. W. Du, “Composition anisotropy compensation and magnetostriction in Pr(Fe1-xCox)1.9 (0 < ="x" <="0.5)" cubic laves alloys,” applied physics letters 92, (2008) 212507. 25. Y. G. Shi, L. Y. Lv, S. L. Tang, J. Y. Yu, R. L. Wang, and Y. W. Du, “Mn substitution effect on the magnetic properties of PrFe1.9 alloy,” Journal of Applied Physics 103, (2008) 07B327. 26. Y. G. Shi, S. L. Tang, Y. J. Huang, L. Y. Lv, and Y. W. Du, “Anisotropy compensation and magnetostriction in TbxNd1−xFe1.9 cubic Laves alloys,” Applied Physics Letters 90, (2007) 142515. 27. Y. G. Shi, S. L. Tang, Y. J. Huang, B. Nie, B. Qian, L. Y. Lv, and Y. W. Du, “Structure, thermal stability and magnetostrictive properties of PrFex (1.5≤x≤3.0) alloys,” Journal of Alloys and Compounds 443, (2007) 11. 28. Y. G. Shi, S. L. Tang, R. L. Wang, H. L. Su, Z. D. Han, L. Y. Lv, and Y. W. Du, “High-pressure synthesis of giant magnetostrictive PrxTb1−xFe1.9 alloys,” Applied Physics Letters 89, (2006) 202503. 1] 时阳光,时阳光,时阳光等.Effects of Co substitution for Fe on the structural and magnetostrictive properties of melt-spun Tb0.2Nd0.8Fe1.9 ribbons.JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS,2017 [2] 时阳光,时阳光,时阳光等.Magnetocaloric effect in Nd(Co0.8Fe0.2)(2) Laves compound with wide operating temperature.JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS,2018

学术兼职

担任APL、PRB、JAP、JAC等多个国际期刊审稿人