基本情况

万见峰，上海交通大学材料科学与工程学院副教授。自1996年以来一直从事固态相变、材料设计、智能材料、材料的表面与界面等基础研究工作，先后主持国家自然科学青年基金项目1项、面上项目2项及联合基金项目1项，主持完成教育部归国留学人员启动基金1项、上海宝钢合作项目1项，参与国家自然科学基金项目以及博士点专项基金、美国爱默生电气公司国际合作等项目多项。 

研究领域

智能材料、界面科学与工程

教育经历

1998.2-2001.9 博士，上海交通大学

1995.9-1998.1 硕士，兰州交通大学

1991.9-1995.6 学士，北京科技大学

工作经历

2009.01-至今 副教授，上海交通大学

2007.09-2008.09 访问学者，美国麻省理工学院

2003.10-2008.12 讲师，上海交通大学

2001.10-2003.10 博士后，上海交通大学

论文发表

1. S. Shi, C. Liu, J.F. Wan*, J.H. Zhang and Y.H. Rong. Thermodynamics of fcc–fct martensitic transformation  in Mn–X(X=Cu,Fe) alloys. Materials and Design. 2016, 92: 960–970.
2. C. Liu, F. Yuan, Z. Gen, L. Wang, Y.G. Cui, J.F. Wan*, J.H. Zhang and Y.H. Rong. In-situ study of surface relief due to cubic-tetragonal martensitic transformation in Mn69.4Fe26.0Cu4.6 antiferromagnetic shape memory alloy. Journal of Magnetism and Magnetic Materials. 2016, 407:1-7.
3. L. Wang, Y. G. Cui, J. F. Wan*, Y. H. Rong, J. H. Zhang, X. Jin and M. M. Cai,  In-situ AFM study of high-temperature untwinning surface relief in Mn-Fe-Cu antiferromagnetic shape memory alloy. Appl. Phys. Lett. 2013, 102(18), 181901.
4. Y. G. Cui, J. F. Wan*, J. H. Zhang and Y. H. Rong, The intrinsic origin of rubber-like behavior  in thermoelastic alloys. Appl. Phys. Lett. 2013, 102(20), 201907.
5. L. Wang, Y. G. Cui, J. F. Wan*, J. H. Zhang and Y. H. Rong, Magnetic thermal hysteresis of paramagnetic–antiferromagnetic phase transition in Fe-24.4Mn-5.9Si-5.1Cr shape memory alloy, AIP Advances, 2013,3, 082126.
6. J.F. Wan* and X.Y. Kong, Energy model and nonlinear bandgap modulation of graphene sheet self-organized on the vicinal surfaces , International Journal of Nonlinear Sciences and Numerical Simulation, 2010, 11:341-344.
7. J.F. Wan* and X.Y. Kong, Energy model and band-gap modulation of graphene band self-organized on the functional vicinal surfaces, Appl. Phys. Lett., 2011, 98, 013104 . (IF.:3.8)
8. Y.G. Cui, J.F. Wan*, J.H. Zhang and Y.H. Rong. Kinetics, mechanism and pathway of reorientation of multi-variants in Ni-Mn-Ga shape memory alloys under continuous compressive stress: Phase-field simulation. Journal of Applied Physics, 2012, 112(9), 094908. (IF.:2.1)
9. J.F. Wan*. Spontaneous Magnetization and Magnon-TA Phonon Interaction during the Premartensitic Transformation in Ni2MnGa Alloy. Chinese Physics Letter, 2012,29 (10): 106301. 
10. Jianfeng Wan, Xiaolin Lei, Shipu Chen and T.Y. Hsu, Electron transverse acoustic phonon interaction in martensitic alloys, Phys. Rev. B, 2004, 70, 014303.
11. Jianfeng Wan, Xiaolin Lei, Shipu Chen and T.Y. Hsu(Xu Zuyao), Electron-phonon coupling mechanism of premartensitic transformation in Ni2MnGa alloy, Script Mater, 2005, 52(2):123-127.
12. Jianfeng Wan, Shipu Chen, Martensitic transformation and shape memory effect in Fe-Mn-Si based alloys, Current Opinion in Solid State & Materials Science, 2005, 9(6): 303~312.
13. Jianfeng Wan, Xiaolin Lei, Shipu Chen and T.Y. Hsu, Phonon damping effect during the premartensitic transformation in Heusler alloy Ni2MnGa, Physics Letters A, 2004, 327(2-3): 216-220.
14. Jianfeng Wan, Xiaolin Lei, Shipu Chen and T.Y. Hsu(Xu Zuyao), Electronic Structure and Ferromagnetic Effect in Ni2MnGa Alloy, Metallurgical and Materials Transactions A. 2005, 36A(1): 262-267.
15. Jianfeng Wan, Shipu Chen and T.Y. Hsu, Xiaolin Lei and Yineng Huang, Modulus Characteristics during the g®e Martensitic Transformation in Fe-Mn-Si-Cr-N Alloys, Solid State Communications, 2004, 131(1):27~30.
16. Jianfeng Wan, Xiaolin Lei, Shipu Chen and T.Y. Hsu(Xu Zuyao), Magnon-TA phonon interaction and the specific heat during the premartensitic transformation in ferromagnetic Ni2MnGa, Solid State Communications, 2005, 133(7):433-437.
17. Jianfeng Wan, Xiaolin Lei, Shipu Chen and T.Y. Hsu(Xu Zuyao), Electron-Phonon Mechanism of w Phase Transformation, Materials Transaction, 2004, 45(3):953~957.
18. Jianfeng Wan and Jiannong Wang, The magnetic-field-dependence driving force for premartensitic transformation in Heusler alloy Ni2MnGa, Mater. Sci.& Eng. A. 2006,438–440 : 1007~1010.
19. Jianfeng Wan, Shipu Chen, Zuyao Xu (T.Y. Hsu) and Yineng Huang, Modulus Softening during the gÛe Martensitic Transformation in Fe-25Mn-6Si-5Cr-0.14N Shape Memory Alloys, Mater. Sci. & Eng. A. 2006, 438–440 : 887~890.
20. Jianfeng Wan, Shipu Chen and T.Y. Hsu(Xu Zuyao), Electronic Structure and Stability of FCC Phase in Fe-Mn-Si Shape Memory Alloys, Science in China(E), 2001,44(5): 486~492.
21. Jianfeng Wan, Shipu Chen and T.Y. Hsu(Xu Zuyao), The Stability of Transition Phases in Fe-Mn-Si Based Alloys , CALPHAD, 2001,25(3): 355~362.
22. Jianfeng Wan, Shipu Chen and T.Y. Hsu(Xu Zuyao), Temperature Dependence of Stacking Fault Energy in Fe-Based Alloys, Science in China(E), 2001,44(4): 345~352.
23. Jianfeng Wan, Xin Huang，Shipu Chen and T.Y. Hsu(Xu Zuyao), Effect of Nitrogen Addition on Shape Memory Characteristics of Fe-Mn-Si-Cr Alloy, Materials Transaction, 2002, 43(5): 920~925.
24. Jianfeng Wan, Shipu Chen and T.Y. Hsu(Xu Zuyao), Group Theory Analyses of Transition Structures Related to the g®e Transformation in Fe-Mn-Si Based Alloys, Materials Chemistry and Physics, 2001, 71: 90~93.
25. Cui YG, Wan JF, Man J, Zhang JH and Rong YH. Mechanism of Reorientation and Redistribution of  Multi Variants in Shape Memory Alloys under External Field. 中国材料进展. 2012, 31(3):39-42.  (1674-3962)

发明专利

1. Iron-manganese-silicon based shape memory alloys containing chromium and nitrogen ,国际发明专利, NO.US2004231761A1, Xu zuyao, Chen Shipu, Wan Jianfeng, Guo Zhenhong, Zhang Jihua and Rong Yonghua.
2. 含N的FeMnSiCr基形状记忆合金的制备方法(已授权)，中国发明专利，NO.ZL200510023450.3，万见峰，陈世朴，徐祖耀.
3. 低温裂解含铜有机化合物制备纳米球的方法(已授权)，中国发明专利，NO.ZL200410024702.x，万见峰，王健农，余帆和苏连锋.
4. 碳纳米笼的制备方法(已授权)，中国发明专利，NO. ZL200910053314.7， 万见峰，王健农.
5. 钝化镁脱硫剂及其制备方法(已授权)，中国发明专利，NO. ZL200910053315.1， 万见峰，陈文，尤磊，马晓春.