王雪峰

2009年-目前：蘇州大學，物理科學與技術學院，特聘教授。

2007年-2009年：Atomistix公司亞太分公司(新加坡)，高級科學家。

2001年-2006年：加拿大Concordia大學/Manitoba大學，副研究員。

1995年-2001年：巴西物理研究中心/巴西里約州立大學，訪問學者，博士后，副教授。

1994年-1999年：中科院上海冶金所（現微系統所），助理研究員，訪問副研究員。

1989年-1994年：中科院上海冶金所（現微系統所），研究生，獲半導體物理與器件物理專業博士學位。

1985年-1989年：上海交通大學應用物理系，本科，獲應用物理專業學士學位。

任教課程：固體物理

研究領域：長期從事半導體納米結構和分子體系中電子傳導及它們與電磁場相互作用的研究。

1、DNA中電荷與自旋輸運現象, 國家自然基金， 2011-2013，38萬元

2、石墨烯等離激元受激發射太赫茲量子振蕩源，國家自然基金，2012-2014，65萬元

近一年研究成果及代表性論著：

1)X. F. Yang, Y. S. Liu*, J. F. Feng*, X. F. Wang*, C. W. Zhang, and F. Chi, "Transport properties of bare and hydrogenated zigzag silicene nanoribbons: Negative differential resistances and perfect spin-filtering effects", J. Appl. Phys. 116, 124312 (2014).

2)X. F. Yang, X. Zhang, X. K. Hong, Y. S. Liu*, J. F. Feng*, X. F. Wang*, C. W. Zhang, "Temperature-controlled giant thermal magnetoresistance behaviors in doped zigzag-edged silicene nanoribbons", RSC Adv. 4, 48539 (2014).

3)X. Ye, S. Zou, K. Chen, J. Li, J. Huang, F. Cao, X. Wang, L. Zhang, X. F. Wang, M. Shen, and X. Su*, "18.45%-efficient Multi-crystalline Silicon Solar Cell with Novel Nano-scale Pseudo-pyramid Texture", Advanced Functional Materials (2014). DOI: 10.1002/adfm.201401589.

4)R. L. An, X. F. Wang*, P. Vasilopoulos, Y. S. Liu, A. B. Chen, Y. J. Dong, and M. X. Zhai, "Vacancy Effects on Electric and Thermoelectric Properties of Zigzag Silicene Nanoribbons", J. Phys. Chem. C 118, 21339 (2014).

5)X. F. Yang, Y. S. Liu*, J. F. Feng*, and X. F. Wang*, "Large spin Seebeck effects in zigzag-edge silicene nanoribbons", AIP Adv. 4, 087116 (2014).

6)Y. B. Hu*, Y. H. Zhao, X. F. Wang, "A computational investigation of topological insulator Bi2Se3 film", Front. Phys. (2014). DOI 10.1007/s11467-014-0441-1.

7)Y. J. Dong, X. F. Wang*, S. W. Yang, X. M. Wu, "High performance current and spin diode of atomic carbon chain between transversely symmetric ribbon electrodes", Sci. Rep. 4, 6157 (2014).

8)M. X. Zhai, X. F. Wang*, P. Vasilopoulos, Y. S. Liu,* Y. J. Dong, L. Zhou, Y. J. Jiang and W. L. You, "Giant magnetoresistance and spin Seebeck coefficient in zigzag a-graphyne nanoribbons", Nanoscale 6, 11121 (2014).

9)J. Chen; X. F. Wang*; P. Vasilopoulos; A. B. Chen; J. C. Wu, "Single and multiple doping effects on electron transport in zigzag silicene nanoribbons", ChemPhysChem 15, 2701-2706 (2014).

10)Y. S. Liu, X. Zhang, J. F. Feng*, and X. F. Wang*, "Spin-resolved Fano resonances induced large spin Seebeck effects in graphene-carbon-chain junctions", Appl. Phys. Lett. 104, 242412 (2014).

11)X. F. Yang, Y. S. Liu*, X. Zhang, L. P. Zhou, X. F. Wang*, F. Chi and J. F. Feng*, "Perfect spin filtering and large spin thermoelectric effects in organic transition-metal molecular junctions", Phys. Chem. Chem. Phys. 16, 11349 (2014).

12)Y. J. Dong, X. F. Wang*, P. Vasilopoulos, M. X. Zhai, and X. M. Wu, "Half-metallicity in aluminum-doped zigzag silicene nanoribbons", J. Phys. D 47, 105304 (2014).

13)A. B. Chen, X. F. Wang*, P. Vasilopoulos, M. X. Zhai, and Y. S. Liu, "Spin-dependent ballistic transport properties and electronic structures of pristine and edge-doped zigzag silicene nanoribbons: large magnetoresistance", Phys. Chem. Chem. Phys. 16, 5113 (2014).

14)C. Jiang, X. F. Wang*, M. X. Zhai, "Spin negative differential resistance in edge doped zigzag graphene nanoribbons", Carbon 68, 406-412 (2014).

15)Y. S. Liu*, X. F. Wang*, F. Chi, "Non-magnetic doping induced high spin-filter efficiency and large spin Seebeck effect in zigzag graphene nanoribbons", J. Mat. Chem. C 1, 8046 (2013).

16)Y. J. Dong, X. F. Wang*, M. X. Zhai, J. C. Wu, L. Zhou, Q. Han, and X. M. Wu, "Effects of Geometry and Symmetry on Electron Transport through Graphene?Carbon-Chain Junctions", J. Phys. Chem. C 117, 18845 (2013).

17)X. F. Wang*, Y. Hu, and H. Guo*, “Robustness of helical edge states in topological insulators”, Phys. Rev. B 85, 241402(R) (2012).

18)X. F. Wang* and Tapash Chakraborty, “Coulomb screening and collective excitations in biased bilayer graphene”, Phys. Rev. B 81, 081402 (R) (2010).

19)X. F. Wang* and T. Chakraborty, “Coulomb screening and collective excitations in a graphene bilayer” Phys. Rev. B 75, 041404(R)-1-4 (2007).

20)X. F. Wang and T. Chakraborty*, “Collective excitations of Dirac electrons in a graphene layer with spin-orbit interactions” Phys. Rev. B 75, 033408-1-4 (2007).

21)X. F. Wang and Tapash Chakraborty*, “Charge transfer via a two-strand superexchange bridge in DNA”, Phys. Rev. Lett. 97, 106602-1-4 (2006).

22)X. F. Wang*, “Plasmon spectrum of two-dimensional electron systems with Rashba spin-orbit interaction”, Phys. Rev. B 72, 085317-1-6 (2005).

23)X. F. Wang*, “Spin transport of electrons through quantum wires with a spatially modulated Rashba spin-orbit interaction”, Phys. Rev. B, 69, 035302-1-9 (2004).

24)X. F. Wang*, P. Vasilopoulos, and F. M. Peeters, “spin-current modulation and square-wave transmission through periodically stubbed electron waveguides”, Phys. Rev. B 65, 165217-1-10 (2002).

25)X. F. Wang* and X. L. Lei, "Polar optic phonons and high field electron transport in cylindrical GaAs/AlAs quantum wires", Phys. Rev. B 49, 4780-4789 (1994).