石 兢

来源:hg1088皇冠welcome    发布时间 : 2018/08/15      点击量:

教师姓名:石 兢
单 位 hg8088皇冠登录入口物理学院
职 称
学 历 教授
E-mail jshi@whu.edu.cn
研究方向

详细描述

 石兢及其研究小组

 
武汉市武昌珞珈山 hg8088皇冠登录入口物理学院
电话: 86-27-6875-2481-3503 (O)
      86-27-6875-4613     (L)
传真:   86-27-6875-2569  
EMail: 
jshi@whu.edu.cn
小组成员:  教师     石兢  熊锐  尹镝 汤五丰 刘雍
           研究生     张悦 王自昱 魏伟 高若瑞 柳阳 张琪 王海英 杨芝 乐凌 王理 杨阳 王荣娟 朱媛媛 杨毅 费春龙  

石兢

hg1088皇冠welcome 物理系 教授 博士生导师。1956年出生于武汉,1978-1982年湖北大学物理系本科,获学士学位;1988-1994年hg8088皇冠登录入口物理系凝聚态物理研究生,获硕士 博士学位。1982-1988年湖北大学物理系助教、讲师;1994-至今,hg8088皇冠登录入口物理系副教授、教授。1994年意大利国际理论物理中心访问研究,1997-1999年、20001-3月、20017-9月美国布朗大学物理系访问副教授、教授,2004年暑假美国南加州大学访问研究;2003年、2005年、200620072008暑假、2010寒假香港科技大学物理系访问教授;2009-2010年美国布朗大学/美国国家标准局中子物理实验室访问教授。现在的主要学术兼职包括:教育部高等学校物理教学指导委员会委员(2007-),中国物理学会理事(2003- ,中国科学院国际材料物理中心副主任(2002- 湖北省暨武汉物理学会理事长(2001- )、中科院物理所学术委员会委员(2007-)、中科院武汉物理与数学所学术委员会即波普与原子分子国家重点实验室学术委员会委员(2001- )。

         

目前主讲课程:珠峰计划弘毅班“University Physics电子科技专业:固体物理学(一),物理学专业:固体物理学(二)。

     

目前研究方向:      

主要涉及实验与计算凝聚态物理的两个领域      

1.        固体关联电子体系自旋有序、电荷有序和轨道有序及其相关的超导、电荷/轨道密度波、异常磁电阻行为等;

2.        能源材料中高效热电材料的设计及性能优化强场电绝缘材料的老化与击穿机理;

     

主持在研项目:

1     973项目:“高效热电转换材料及器件的基础研究”子课题。

2  国家973项目“变电设备内绝缘时效老化机理与评估模型 及预测方法”子课题。

3  国家自然科学基金项目:“新型Spinel轨道有序MgTi2O4和电荷有序LiRh2O4体系的相变和电输运”

     

代表性研究论文      

近二十年来共发表SCI研究论文100余篇,其中代表性50篇目录如下:      

1.      Lv, HY; Liu, HJ; Pan, L, Shi J., Enhanced thermoelectric performance of (Sb0.75Bi0.25)(2)Te-3 compound from first-principles calculations. APPLIED PHYSICS LETTERS, 96 (14): Art. No. 142101 APR 5 (2010)

2.         Yue Zhang, Fang Dong, Yong Liu, Chunlong Fei, Chunxu Pan, Di Yin, Rui Xiong, Jing Shi, Synthesis and exchange bias effect of CoFe2O4/CoO composite ceramics Materials Chemistry and Physics 124 (2010) 10341038    

3.         Yue Zhang, Zhi Yang, Di Yin, Yong Liu, ChunLong Fei, Rui Xiong, Jing Shi, GaoLin Yan, Composition and magnetic properties of cobalt ferrite nano-particles prepared by the co-precipitation method, Journal of Magnetism and Magnetic Materials 322 (2010) 3470–3475    

4.         Yong Liu, Changzheng Li, Junfeng Wang, Di Yin, Jing Shi, Rui Xiong, Thermal transport properties and electronic structure of W-doped rubidium blue bronzes Rb0.3Mo1-xWxO3 (x=0, 0.001, 0.003, 0.005), Physica B,405(2010) 2857-2862

5.         Yue Zhang, Chunlong Fei, Yong Liu, Rongjuan Wang, Gaolin Yan, Rui Xiong, and Jing ShiThe Effect of Surface Modification on the Magnetic Properties of CoFe2O4 Nano-Particles Synthesized by the Hydrothermal Method, Nanoscience and Nanotechnology, 10 (2010) 6395-6399    

6.         刘雍,周睿,李靖,张悦,熊锐,尹镝,汤五丰,石兢,尖晶石结构自旋有序CaTi2O4单晶生长和磁化率特性研究,物理学报(ACTA PHYSICA SINICA59(8)(2010): 5620-5625

7.         程莉,汪丽莉,蒲十周,胡妮,张悦,刘雍,魏伟,熊锐,石兢,磁性和非磁性元素掺杂的自旋梯状化合物Sr14(Cu 0.97 M 0.03)24O41 (M = Zn, Ni, Co)的结构和电输运性质,物理学报(ACTA PHYSICA SINICA59(2)(2010): 1155-1162

8.         袁慧,尹镝,汤征,刘雍,熊锐,石兢,从自旋冰到自旋液态的渡越结构与磁性质的演化,物理学报(ACTA PHYSICA SINICA59(2010)2073-2077

9.         Zhu, BP; Zhou, QF; Shi, J; Self-separated hydrothermal lead zirconate titanate thick films for high frequency transducer applications. APPLIED PHYSICS LETTERS94 (10): . No. 102901 ( 2009)

10.     Zhu, BP; Li, DD; Zhou, QF, Shi J.. Piezoelectric PZT thick films on LaNiO3 buffered stainless steel foils for flexible device applications  .JOURNAL OF PHYSICS D-APPLIED PHYSICS, 42 (2): 025504 (2009)  

11.     Di Yin, Changzhen Li, Junfeng Wang, Rui Xiong, Jing Shi, Congzhi Bi, JiYun Ma, XiangGang Qiu, Polarized infrared reflectivity study in charge density wave conductorTl0.3MoO3J Physics and Chemistry of Solids 70 (2009) 249–253

12.     W Wei, Z Y Wang, L L Wang, H J Liu, R Xiong, J Shi, H Li and X F TangElectronic structure and transport coefficients of binary skutterudite antimonide, J. Phys. D: Appl. Phys. 42 (2009): 115403 (5pp)

13.     L. L. Wang, L. Miao, Z. Y. Wang, W. Wei, R. Xiong, H. J. Liu, J. Shi, and X. F. Tang, Thermoelectric performance of half-Heusler compounds TiNiSn and TiCoSb, J Appl. Phys105, (2009)013709

14.     C Ma, H X Yang, L J Zeng, Y Zhang, L L Wang, L Chen, R Xiong, J Shi and J Q Li, Structural modulation and hole distribution in Sr14−xCaxCu24O41 J. Phys.: Condens. Matter 21 (2009): 215606 (7pp)

15.     Shen D W, Zhang Y, Yang L X, Wei J, Ou H W, Dong J K, Xie B P, He C, Zhao J F, Zhou B, Arita M, Shimada K, Namatame H, Taniguchi M, Shi JFeng D L, Primary Role of the Barely Occupied States in the Charge Density Wave Formation of NbSe2PHYS REV LETT101: 226406  (2008)

16.     Wu Y, An M, Xiong R, Shi J, Zhang Q MRaman scattering spectra in the normal phase of 2H–NbSe2J. Phys. D: Appl. Phys. 41: 175408 (2008)

17.   Zhu B P, Wu D W, Zhou Q F, Shi J, Shung K K, Lead zirconate titanate thick film with enhanced electrical properties for high frequency transducer applications, Applied Physics Letters  93: 012905(2008)      

18.   汪丽莉熊锐魏伟胡妮林颖朱本鹏汤五丰余祖兴汤征石兢缺氧条件下准一维自旋梯状结构化合物(Sr1-xCa x)14Cu24O41-δ的磁化率特性研究, 物理学报,57: 4334 (2008)      

19.     Yang HX, Zhu BP, Zeng LJ, Shi J, et al. Structural modulation in the orbitally induced Peierls state of MgTi2O4,JOURNAL OF PHYSICS-CONDENSED MATTER, 20: 275230 (2008)

20.   Liu HJ, Wen YW, Miao L, Shi JIsomorphous substitution of AlPO4 -5 A  density functional studyAPPLIED PHYSICS LETTERS 921431152008      

21.     Wang DL, Liu W, Xiao QM, Shi J et al. Embedded metal-wire nanograting and its application in an optical polarization beam splitter/combinerAPPLIED OPTICS47312-316 (2008)

22.     Peng SL, Zhang MY, Niu XZ, Shi J et al. Magnetically responsive elastic microspheresAPPLIED PHYSICS LETTERS,92012108 (2008)

23.     Wang JF, Deng H, Li YD, Shi J,. Large grain-boundary magnetoresistance in MnFe2O4 nanoparticle compact,JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS, 320227-230 (2008)

24.     黄平,汤征,石兢等,场诱导下自旋冰系统 [111]方向磁相变过程的蒙特卡洛模拟,低温物理学报304):3032008    

25.     Fabrication and enhanced magnetoresistance of SiO2-coated Fe3O4 nanosphere compact,      Wang, Junfeng;Jing Shi, , Appl. Phys. Lett., 90 , 213106 ( 2007)

26.     Novel mechanism of a charge density wave in a transition metal dichalcogenide, D.W.Shen, B.P.Xie, J.F.Zhao, L.X.Yang, L. Fang, J.Shi, R.H.He, D.H.Lu, H.H.Wen,D.L.Feng, Phys.Rev.Lett.,99 216404 (2007)

27.     Electronic structure and transport properties of K-doped blue bronze Rb0.15K0.15MoO3, Wang, Junfeng;Jing. ShiMATERIALS LETTERS 61:5067 (2007)

28.     Preparation of Polycrystalline Singe-phase K0.3MoO3 by Hot Isostatic Pressing Sintering, Junfeng WANG,Jing SHI, , J Mater. Sci. Technol., 23: 633 (2007)

29.     Microscopic evidence of dimer breaking up in CuO2 chain for Ca-substituted Sr14Cu24O41 compounds,J Wang,; HM Zou, Jing Shi, J. Phys:-Condens Matter 19:196224 (2007)

30.     Effect of Co substitution on magnetic properties of Sr14Cu24O41Ying Lin, Rui Xiong, Ni Hu, Lili Wang, Zuxing Yu, Wufeng Tang, Jing Shi,  Physica B400,93 (2007)

31.     Dynamical magnetic properties of the spin ice crystal Dy2Ti2O7, Jing Shi, J MAGNETISM AND MAGNETIC MATERIALS 310: 1322 (2007)

32.     Temperature dependence of the second threshold field for rubidium blue bronze Rb0.3MoO3, Xiong R., Li DH., Wang J F., L. CZ., Tang WF, J. Shi.Solid State Commun. 142:251 (2007)

33.     Synthesis of MgTi2O4 by spark plasma sintering, Zhu BP, Tang Z, zhao LH, Wang LL, Li CZ, Yin D, Yu ZX, Tan WF, Xiong R J. Shi , Mater. Lett61:578 (2007)

34.     Low-temperature specific heat of the quasi-two-dimensional charge-density wave compound KMo6O17,Wang, JF; Xiong, R; Yin, D; J. Shi,. Phys.Rev.,B73 193102 (2006)      

35.     Optical Study: Evidence for Orbital-Peierls State. J.Zhou, N.L.Wang, G.Li, L.J.Luo, Y.C.Ma, D.Wu, B.P.Zhu, Z.Tang, J. Shi,, Phys. RevB74, 245102 (2006)      

36.     Doping effect on electronic transport properties of Sr-14(Cu1-yMy)(24)O-41 (M = Zn, Ni), H. Xie,; N. Hu,; L. Wang,; J.ShiPHYSICA B-CONDENSED MATTER381: 168 (2006)      

37.     Specific heat and critical behavior of Tl0.3MoO3 near the Peierls phase transition, Wang, JF; Xiong, R; Li,CZ; J.Shi,. Solid State Common.139: 323 (2006)      

38.     Modulation effect of transverse currents on the switch and hysteresis characteristics in blue bronze Rb0.3MoO3 Li CZ, Yin D, Li DH, Tang Z, Wang JF, Xiong R, Shi J, Tian DC Solid State Common. 140: 369 (2006)      

39.     Growth of high quality and large-sized Rb0.3MoO3 single crystals by molten salt electrolysis methodWang, JF; Xiong, R; Yi, F; J.Shi., JOURNAL OF SOLID STATE CHEMISTRY178: 1440 (2005)      

40.     Single crystal T0.3MoO3 growth by electrolytic reduction method of a T1(2)CO(3)-MoO3 melts, Li, CZ; Xiong, R; Yin, D; J.Shi. JOURNAL OF CRYSTAL GROWTH, 285: 81 (2005)      

41.     Study on High-Temperature Performances of 1.3-μm InGaAsP-InP Strained Multi-Quantum-Well Buried-Heterostructure Lasers,  Jinyan Jin, Jing Shi, Decheng Tian, IEEE Photonic Technology Letters17276(2005)      

42.     Low threshold current 1.3-μm GaInNAs Vertical Cavity Surface Emitting Lasers Grown by MOVPE, Yue aiwen, Shen Kun, Wang renfan and Jing SHI, IEEE Photonic Technology Letters16(3) 717(2004)      

43.     Preparation and Characterization of Molybelenum oxide thin films by sol-gel process, J. B. Sun, R.Xiong,J.Shi ., J.Sol-gel Sci. Tech., 27, 315 (2003)

44.     Magnetoresistance properties of quasi-two-dimensional charge-density wave compounds AMo6O17 ( A=Na, K, and Tl), Ming-Liang Tian, Jing Shi, Song yue et al., J.Appl.Phys., 89(6): 3408(2001)

45.     Magnetotransport and the Shubnikov-de Hass effect in quasi-two-dimensional purple bronze TlMo6O17,Ming-Liang Tian, Jing Shi, Song Yue, J.Phys.: Condens. Matter 13(2001): 311-318

46.     Infrared and EPR studies of the red potassium molybdenum bronze K0.33MoO3Rui Xiong, Jing Shi,Qingming Xiao, Decheng Tian et al. J. Mater. Sci. 36(22): 5511-5514 (2001)

47.     Numerical calculation of the dip effect in high-Tc single crystals from bulk pinning  P. Zhang, J. Shi, S.Y.Ding, C. Ren, S.A. Aruma, and X.X.yao, Phys.Rev., B62, 5374 (2000)

48.     Specific heat study of the CDW phase transition in the doped blue bronzes Tl1-xKxMoO3  D.L. Wang, Jing ShiMod.Phys.Lett., B14, 251 (2000)

49.     Charge density wave insitabity in TlMo6O17R.Xiong, Q.M. Xaio, Jing Shi,  Mod.Phys.Lett., B14, 345 (2000)   

50.     Giant peak effect observed in an ultral pure YBa2Cu3O6.993 crystal., Jing Shi, X.S. Ling, Ruixing Liang, D.A.Born, and W.N.Hardy, Phys. Rev., B Rapid Communication, 60, 12593 (1999).


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