团队简介

国家脉冲强磁场科学中心功能材料团队依托大科学工程科研平台，重点研究材料在极端实验条件下的新物理、新材料和新功能。团队成员主要从事磁电阻材料、磁制冷材料、多铁材料、纳米分子磁体、低维和阻挫量子磁体等功能材料的探索及其相关物理研究。团队目前有主要成员6名。

主要研究手段包括：脉冲强磁场磁化、ESR、电输运、磁致伸缩和电极化（磁电耦合）测量；常规实验条件包括：综合物性测量系统（PPMS-16T）、超导量子干涉磁强计（SQUID-VSM-7T）、铁电测量仪、X射线衍射仪和光学浮区单晶生长炉。

最新进展及要闻

·强磁场中心材料物理组在多铁材料Ni₃V₂O₈的强磁场电极化研究上取得新进展

·强磁场中心材料物理组在螺旋链Ni₂V₂O₇的磁性研究上取得新进展

·王振兴团队获异核双金属自由基研究新进展

·王振兴团队在无孔分子簇的单晶转变上获重要进展

团队成员

负责人：夏正才

姓名	职称	电子邮箱（请将#换成@）
夏正才	教授	xia9020#hust.edu.cn
欧阳钟文	教授	zwouyang#mail.hust.edu.c
王俊峰	研究员	jfwang#hust.edu.cn
王振兴	副教授	zxwang#hust.edu.cn
田召明	副教授	tianzhaoming#hust.edu.cn
李学飞	副研究员	xfli#hust.edu.cn

本团队目前在读博士生14人，硕士生12人。

科研项目

本团队成员目前承担多项在研科研项目：

1) 国家自然科学基金面上项目：量子磁体中强磁场诱导玻色玻璃态动力学行为研究（11674115），2017.01-2020.12。

2)国家重点研发计划：“同步辐射和强磁场下的量子材料的多维度测量和表征（2016YFA0401000），中子课题“强磁场下新奇量子行为的研究（子课题编号2016YFA0401003）”，2016.07- 2021.06。

3) 国家自然科学基金面上项目“三角阻挫磁性材料的分数磁化平台及相关新效应研究”，2016-2019。

4)国家自然科学基金面上项目（11074083）：受限低维量子磁性材料的强磁场ESR研究，2015-2018。

5) 国家自然科学基金-青年项目，项目名称：超薄高k栅介质/新型窄带隙半导体MOS器件的界面调控与电学性能研究，项目批准号：11404118。项目起止年月：2015.01 – 2017.12。

6) 973项目：非晶体系的热力学、动力学微观特征和时空关联性基本物理问题研究（2015CB856800）子课题一“非晶体系的动力学及非平衡物理特征”（编号2011CB012801），2015.1.1-2019.12.31。

7) 国家重点研发计划—大科学装置前沿研究专项“脉冲强磁场先进实验技术研究及装置性能提升”，2017-2021。

8) “双一流”建设国际合作专项项目经费—“强磁场ESR国际联合实验室”（5001131010），2017.01-2019.12。

科研成果

1)Hui Cheng, Zhangcai Xia^*, R Wang, Meng Wei, Zhao Jin, Cui Shang, Huan Wu, Xiaoxin Zhang, Guiling Xiao, Z Ouyang. Direct observation of temperature/magnetic field induced transition between martensite and premartensite. J. Phys D. Appl. Phys.,50, (2017) 135004

2)Z. JIN，Z.C. XIA^*, M. WEI，F. YANG,. HUANG, G.L. XIAO, C. SHANG, H. CHENG, H. WU, X.X. ZHANG, and Z.W. OUYANG，Influence of High Magnetic Field and Zn Doping on Robust CO Phase of La_0.5Ca_0.5MnO₃，Journal of ELECTRONIC MATERIALS DOI: 10.1007/s11664-017-5537-2

3)L.R. Shi, C.X. Wei, Z.C. Xia. Magnetization reversal and dielectric response in Y_0.9R_0.1Fe_0.5Cr_0.5O₃.J. Alloys Comp.698 (2017) 626-632

4)Xing-Chen Pan，Yiming Pan，Juan Jiang，Huakun Zuo，Huimei Liu，Xuliang Chen，Zhongxia Wei，Shuai Zhang，Zhi He Wang，Xiangang Wan，Zhaorong Yang，Donglai Feng，Zhengcai Xia，L. Li，Fengqi Song，Baigeng Wang，Yuheng Zhang，Guanghou Wang. Carrier balance and linear magnetoresistance in type-II Weyl semimetal WTe₂.Frontiers of Physics12(3) · 2017。DOI: 10.1007/s11467-016-0629-7

5)Wei Niu，Xuefeng Wang，Ming Gao，Zhengcai Xia，Jun Du，Yuefeng Nie，Fengqi Song，Yongbing Xu，Rong Zhang. Unsaturated magnetoconductance of epitaxial La_0.7Sr_0.3MnO₃thin films in pulsed magnetic fields up to 60 T,AIP ADVANCES7, 056404 (2017)

6)Zhang Chenglong, Xu Suyang, Wang C.M., Lin Ziquan, Du Z.Z., Guo Cheng, Lee Chi-Cheng, Lu Hong, Feng Yiyang, Huang Shin-Ming, Chang Guoqing, Hsu Chuang-Han, Liu Haiwen, Lin Hsin, Li Liang, Zhang Chi, Zhang Jinglei, Xie Xincheng, Neupert Titus, Hasan M. Zahid, Lu Haizhou*, WANG JUNFENG*, Jia Shuang*. Magnetic tunneling induced Weyl node annihilation in TaP.Nature Physics, in press (2017)

7)Xuefei Li, Xiong Xiong, Yanqing Wu, Toward high-performance two-dimensional black phosphorus electronic and optoelectronic devices，Chin.Phys. B，2017，26（3）：0373071~03730711

8)N.-N. Mao, B.-Q. Zhang, F. Yu, X. Chen, G.-L. Zhuang*, Z. Wang*, Z.W. Ouyang, T.-L. Zhang, B. Li*, “Embedding 1D or 2D cobalt–carboxylate substrates in 3D coordination polymers exhibiting slow magnetic relaxation behaviors: crystal structures, high-field EPR, and magnetic studies”,Dalton Trans.46, 4786 (2017).

9)X.-N. Yao, J.-Z. Du, Y.-Q. Zhang, X.-B. Leng, M.-W. Yang, S.-D. Jiang, Z.-X. Wang, Z.-W. Ouyang, L. Deng, B.-W. Wang, Song Gao. “Two-Coordinate Co(II) Imido Complexes as Outstanding Single-Molecule Magnets”,J. Am. Chem. Soc.139, 373 (2017).

10)F. Yu, J.-Y. Ge, Z.-H. Cao, Y.-C. Sun, Z.-W. Ouyang, J.-L. Zuo*, Z. Wang,* M. Kurmoo, “Magnetostructural relationship forμ2-phenoxido bridged ferric dimers”,Dalton Trans.46, 4317 (2017).

11)Xuefeng Wang,* Xingchen Pan, Ming Gao, Jihai Yu, Juan Jiang, Junran Zhang, Huakun Zuo, Minhao Zhang, Zhongxia Wei, Wei Niu, Zhengcai Xia, Xiangang Wan, Yulin Chen, Fengqi Song,* Yongbing Xu, Baigeng Wang, Guanghou Wang, and Rong Zhang*, Evidence of Both Surface and Bulk Dirac Bands and Anisotropic Nonsaturating Magnetoresistance in ZrSiS,Adv. Electron. Mater. 2016, 1600228

12)Yanwen Liu, Xiang Yuan, Cheng Zhang, Zhao Jin, Awadhesh Narayan, Chen Luo, Zhigang Chen, Lei Yang, Jin Zou, Xing Wu, Stefano Sanvito, Zhengcai Xia, Liang Li, Zhong Wang & Faxian Xiu, Zeeman splitting and dynamical mass generation in Dirac semimetal ZrTe₅,NATURE COMM., 7:12516(2016)

13)Wu, Yuying; Xu, Jian; Xia, Zhengcai Temperature-Induced Magnetization Reversal in the Mn³⁺-Doped SmCrO₃,J Low Temp Phys,183, (2016) 14-22

14)C. Shang, Z.C. Xia^*, M. Wei, Z. Jin, B.R. Chen, L.R. Shi, G.L. Xiao, S. Huang, Tuning of Cr³⁺ions doping on the magnetic and magnetocaloric properties of La_0.5Sr_0.5Mn_1-xCr_xO₃Physica B502 (2016) 39–47

15)Zhang Chenglong, Xu Suyang, Belopolski Llya, Yuan Zhujun, Lin Ziquan, Tong Bingbing, Bian Guang, Alidoust Nasser, Lee Chi-Cheng, Huang Shin-Ming, Chang Tay-Rong, Chang Guoqing, Hsu Chuang-Han, Jeng Horng-Tay, Neupane Madhab, S.Sanchez Daniel, Zheng Hao, WANG JUNFENG et al. Signatures of the Adler-Bell-Jackiw chiral anomaly in a Weyl fermion semimetal.Nature Communications7, 10735 (2016)

16)Z Jin, Z-C Xia^*, M Wei, J-H Yang, B Chen, S Huang, C Shang, H Wu, X-X Zhang, J-W Huang，and Z-W Ouyang，3D spin-flop transition in enhanced 2D layered structure single crystalline TlCo₂Se₂，J. Phys.: Condens. Matter 28 (2016) 396002

17)Shi, L.R.; Xia, Z.C*.; Huang, S.; Xiao, G.L.; Jin, Z.; Wei, M.; Chen, B.R.; Shang, C.; Cheng, H.; Ouyang, Z.W,.The magnetization reversal and high temperature dielectric response in Y_1-xHo_xFe_0.5Cr_0.5O₃,Ceram. Int., 42,10808-10812( 2016)

18)C. Shang, Z.C. Xia^*, M. Wei, Z. Jin, B.R. Chen, L.R. Shi, Z.W. Ouyang, S. Huang, G.L. Xiao, Tuning of Cu doping on phase transition and high-field phase diagram of Nd_0.5Sr_0.5Mn_1−xCu_xO₃,J. Magn. Magn. Mater., 416, 357-365(2016)

19)Yuan Zhujun, Lu Hong, Liu Yongjie, WANG JUNFENG et al. Large magnetoresistance in compensated semimetals TaAs₂and NbAs₂.Physical Review B93, 184405 (2016)

20)Wang Huichao, Li Chaokai, Liu Haiwen, Yan Jiaqiang, WANG JUNFENG et al. Chiral anomaly and ultrahigh mobility in crystalline HfTe₅.Physical Review B93, 165127 (2016)

21)Cui Shang, Shaopu Guo, Ruilong Wang*, Zhigang Sun, Haibo Xiao, Lingfang Xu, Changping Yang & Zhengcai Xia*, Positive to negative zero field cooled exchange bias in La_0.5Sr_0.5Mn_0.8Co_0.2O₃ceramics Scientific Reports6, 25703(2016)

22)Yuqin Wu · Shaopu Guo · Shuyun Yu · Hui Cheng ·Ruilong Wang^*· Haibo Xiao · Lingfang Xu · Rui Xiong ·Yong Liu · Zhengcai Xia^*· Changping Yang^*,Premartensitic transition and relevant magnetic effects in Ni₅₀Mn₃₄In_15.5Al_0.5alloy ·Scientific Reports6, 26068(2016)

23)Shang, Cui; Xia, Zhangcai*; Wei, Meng; Jin, Zhao; Chen, Borong; Shi, Liran; Ouyang, Z; Huang, Sha; Xiao, Guiling. Al³⁺doping effects and high field phase diagram of La_0.5Sr_0.5Mn_1-xAl_xO₃J. Phys. D: Appl. Phys., 49, 035001(2016),

24)Lixia Xiao，Zhengcai Xia*, Zhao Jin，Liran Shi，Yun Ni，Junpei Zhang，Wen Yu，Doping induced zero-field cooled exchange bias effect in hexagonal Y_0.95Eu_0.05MnO₃single crystal，Ceram. Int.42，2550-2556 (2016)

25)H. Shu, Z.W. Ouyang*,Y.C. Sun, M.Y. Ruan, J.J. Li, X.Y. Yue, Z.X. Wang, Z.C. Xia, and G.H. Rao, "Size-dependent magnetism in nanocrystals of spin-chaina-CoV₂O₆",J. Magn. Magn. Mater.407, 129 (2016)

26)Zhou, Peng，Qi, Yajun; Yang, Chao; Mei, Zhiheng; Ye, Ang; Liang, Kun; Ma, Zhijun; Xia, Zhengcai; Zhang, Tianjin Magnetic anisotropy of epitaxial La2/3Sr1/3MnO3thin films on SrTiO3with different orientations,AIP Advances, v 6, n 12, 2016

27)Xuefei Li，Yuchen Du，Mengwei Si，Lingming Yang，Sichao Li，Tiaoyang Li，Xiong Xiong，Peide Ye，Yanqing Wu，Mechanisms of current fluctuation in ambipolar black phosphorus field-effect transistors，Nanoscale，2016.02.14，8（6）：3572~3578A

28)L. Chen, H.-H. Cui, S. E. Stavretis, S. C. Hunter, Y.-Q. Zhang,* X.-T. Chen,* Y.-C. Sun, Z. Wang,* Y. Song, A. A. Podlesnyak,* Z.-W. Ouyang, Z.-L. Xue,* “Slow Magnetic Relaxations in Cobalt(II) Tetranitrate Complexes. Studies of Magnetic Anisotropy by Inelastic Neutron Scattering and High-Frequency and High-Field EPR Spectroscopy”,Inorg. Chem.55, 12603 (2016).

29)Y.-F. Deng, Z. Wang,* Z.-W. Ouyang, B. Yin,* Z.-P. Zheng, Y.-Z, Zheng,* “Large Easy-Plane Magnetic Anisotropy in a Three-Coordinate Cobalt(II) Complex [Li(THF)₄][Co(NPh₂)₃]”,Chem. Eur. J.22, 14821 (2016).

30)L. Sun, S. Zhang, S.-P. Chen,* B. Yin,* Y.-C. Sun, Z. Wang,* Z.-W. Ouyang, J.-L. Ren, W.-Y. Wang, Q. Wei, G. Xie, S.-L. Gao, “A Two-dimensional Cobalt(II) Network with a Remarkable Positive Axial Anisotropy Parameter Exhibiting Field-induced Single-ion Magnet Behavior”,J. Mater. Chem. C4, 7798 (2016).

31)M.-Y. Zhang,Z. Wang, T. YangY.-X Zhang, X.-F. Ma, Y.-C. Sun, Z.-W. Ouyang, M. Kurmoo, M.-H. Zeng, “Supramolecular Interactions Direct the Formation of Two Structural Polymorphs from One Building Unit in a One-Pot Synthesis”,Chem. Eur. J.22, 13900 (2016).

32)B. R. Chen, Z. C. Xia*, J. W. Huang, Z. Jin, H. K. Zuo, L. X. Xiao, M. Wei, L. R. Shi, Z. W. Ouyang , Y. Huang, L. W. Ding，Engineering of ion-doping on the ground states and Bose–Einstein condensation of Sr₃Cr₂O₈，Mater. Chem. Phys., 167, 278–285 (2015).

33)Shi, L.R.; Xia, Z.C*.; Wei, M.; Jin, Z.; Shang, C.; Huang, J.W.; Chen, B.R.; Ouyang, Z.W.; Huang, S.; Xiao, G.L. Unusual effects of Ho³⁺ion on magnetic properties of YFe_0.5Cr_0.5O₃.Ceram. Int., 41，13455-13460（2015）

34)Huang Jun-Wei(黄俊伟), Xia Zheng-Cai(夏正才)*, Cheng Gang(成钢), Shi Li-Ran(时丽然), Jin Zhao(金昭), Shang Cui(尚翠), and Wei Meng(魏蒙) Effects of R-site compositions on the meta-magnetic behavior of Tb_1-xPr_x(Fe_0.4Co_0.6)_1.88C_0.05(x= 0, 0.8, and 1).Chin. Phys. B. 24, (2015) 107504.

35)C. Shang, Z.C. Xia^*, M. Wei, B.R. Chen, Z. Jin, J.W. Huang, L.R. Shi, Z.W. Ouyang, S. Huang. Dynamical behavior of step-like transition of La_0.5Sr_0.5Mn_1−xTi_xO₃in a widened field sweep rate.Ceram. Int. 41 (2015) 9708–9714.

36)J.W. Huang, Z.C. Xia^*, G. Cheng, L.R. Shi, Z. Jin, B.R. Chen, C. Shang, M. We, Step-like and first-order characters of Tb_0.2Pr_0.8(Fe_0.4Co_0.6)_1.93with low interstitial carbon content,Intermetallics63 (2015) 45-50

37)Zhang Chenglong, Guo Cheng, Lu Hong, Zhang Xiao, Yuan Zhujun, Lin Ziquan, WANG JUNFENG et al. Large magnetoresistance over an extended temperature regime in monophosphides of tantalum and niobium.Physical Review B92, 041203(R) (2015)

38)Zhao Yanfei, Liu Haiwen, Zhang Chenglong, Wang Huichao, WANG JUNFENG et al. Anisotropic Fermi surface and quantum limit transport in high mobility three-dimensional Dirac semimetal Cd₃As₂.Physical Review X5, 031037 (2015)

39)Y.C. Sun and Z.W. Ouyang*, "Antiferromagnetic ordering of the spin 5/2 ladder compound BaMn₂O₃from first principles”,Eur. Phys. J. B88, 217 (2015).

40)Y.C. Sun, Z.W. Ouyang*, M.Y. Ruan, Y.M. Guo, J.J. Cheng, Z.M. Tian, Z.C. Xia, and G.H. Rao, "High-field magnetization and ESR in the triangular-lattice antiferromagnets Ba₃MnSb₂O₉and Ba₃TNb₂O₉(T=Ni,Co)”,J. Magn. Magn. Mater.393, 273 (2015).

41)Y.M. Guo, Z.W. Ouyang*, M.Y. Ruan, J.J. Cheng, Y.C. Sun, Z.C. Xia, and G.H. Rao, "Antiferromagnetic ordering in spin-chain multiferroic Gd₂BaNiO₅studied by electronic spin resonance”,J. Appl. Phys.117, 223902 (2015).

42)Y.M. Guo, Z.W. Ouyang*, M.Y. Ruan, J.J. Cheng, Y.C. Sun, Z.C. Xia, and G.H. Rao, "Possible classical to quantum transition in spin-chain compounds Gd_2-xNd_xBaNiO₅”,J. Alloys Compd.619, 200 (2015).

43)M.Y. Ruan, Z.W. Ouyang*, Y.M. Guo, Y.C. Sun, J.J. Cheng, Z.C. Xia, and G.H. Rao, "Memory effect in spin-chain single crystal Ca₃Co_1.62Mn_0.38O₆”,J. Alloys Compd.620, 97 (2015).

44)ZUO Hua-Kun, SHI Li-Ran, XIA Zheng-Cai*, HUANG Jun-Wei, CHEN Bo-Rong, JIN Zhao, WEI Meng, OUYANG Zhong-Wen, CHENG Gang, The Magnetic Anisotropy and Complete Phase Diagram of CuFeO₂Measured in a Pulsed High Magnetic Field up to 75T,CHIN. PHYS. LETT.Vol. 32, No. 4 (2015) 047502

45)XIAO Li-Xia(肖利霞), JIN Zhao(金昭), XIA Zheng-Cai(夏正才)*, SHI Li-Ran(时丽然), HUANG Jun-Wei(黄俊伟), CHEN Bo-Rong(陈柏蓉), SHANG Cui(尚翠), WEI Meng(魏蒙), LONG Zhuo(龙卓), Effects of Doping on the Magnetic Properties and Frustration of Hexagonal YMn_0.9A_0.1O₃(A=Al, Fe, and Cu),CHIN. PHYS. LETT. 32, (2015) 017501

46)Hu, Ni; Lu, Chengliang; Xia, Zhengcai; Xiong, Rui; Fang, Pengfei; Shi, Jing; Liu, Junming.Multiferroicity and Magnetoelectric Coupling in TbMnO₃Thin Films",ACS Appl. Mater. & Interfaces7, 26603 (2015).

47)Z. J. Xiang, D. Zhao1 Z. Jin C. Shang, L. K. Ma, G. J. Ye, B. Lei, T. Wu, Z. C. Xia, and X. H. Chen，Angular-Dependent Phase Factor of Shubnikov–de Haas Oscillationsin the Dirac Semimetal Cd₃As₂，Phys.Rew.Lett.,115, 226401 (2015)

48)Junzhi Cao, Sihang Liang, Cheng Zhang, Yanwen Liu, Junwei Huang, Zhao Jin, Zhi-Gang Chen,Zhijun Wang, Qisi Wang, Jun Zhao, Shiyan Li, Xi Dai, Jin Zou, Zhengcai Xia, Liang Li &FaxianXiu. Landau level splitting in Cd₃As₂under high magnetic fields.NATURE COMM., 6:7779(2015)

49)Chen, F.; Shang, C.; Jin, Z.; Zhao, D.; Wu, Y.P.; Xiang, Z.J.; Xia, Z.C.; Wang, A.F.; Luo, X.G.; Wu, T.; Chen, X.H. Magnetoresistance evidence of a surface state and a field-dependent insulating state in the Kondo insulator SmB₆:Phys. Rev. B, 91, 205133 (2015)

50)Xuefei Li，Tingting Gao，Yanqing Wu，Development of two-dimensional materials for electronic applications，SCIENCE CHINA Information Sciences，2016.06.02，59（6）：0614051~06140514

51)Xuefei Li，Xiaobo Lu，Tiaoyang Li，Wei Yang，Jianming Fang，Guangyu Zhang，Yanqing Wu，Noise in Graphene Superlattices Grown on Hexagonal Boron Nitride，ACS Nano，2015.10.4，9（11）：11382~11388

52)Xuefei Li，Lingming Yang，Mengwei Si，Sichao Li，Mingqiang Huang，Peide Ye，Yanqing Wu，Performance Potential and Limit of MoS2 Transistors，Advanced Materials，2015.3.4，27（9）：1547~1552

53)Y.-F. Deng, T. Han, Z. Wang, Z.-W. Ouyang, B. Yin, Z.-P. Zheng, J. Krzysteke,Y.-Z. Zheng, “Uniaxial Magnetic Anisotropy of Square-Planar Chromium(II) Complexes Revealed by Both Magnetic and HF-EPR Studies”,Chem. Commun.51, 17688 (2015).

54)L. Chen, S. Y. Chen, Y.-C. Sun, Y. M. Guo, L. Yu, X. T. Chen, Z. Wang, Z. W. Ouyang, Y. Song, Z. L. Xue, “Slow magnetic relaxation in mononuclear seven-coordinate cobalt(II) complexes with easy plane anisotropy”,Dalton Trans.44, 11482 (2015).

55)Liran Shi, Zhengcai Xia^*, Meng Wei, Junwei Huang, Borong Chen, Zhuo Long, Cui Shang, Zhongwen Ouyang, and Nianming Xia, The enhanced spontaneous dielectric polarization in Ga doped CuFeO₂,J. Appl. Phys., 116, 173907 (2014)

56)Liran Shi, Zhao Jin, Borong Chen, Nianming Xia, HuakunZuo, Yeshuai Wang, Zhongwen Ouyang, Zhengcai Xia^*,Unusual doping effect of non-magnetic ion on magnetic properties of CuFe_1−xGa_xO₂,J. Magn. Magn. Mater.,372, (2014) 7–11.

57)M.Y. Ruan, Z.W. Ouyang*, Y.M. Guo, J.J. Cheng, Y.C. Sun, Z.C. Xia, G.H. Rao, S. Okubo, and H. Ohta, "Disappearance of Ising nature in Ca₃ZnMnO₆studied by high-field ESR”,J. Phys.: Condens. Matter26, 236001 (2014).

58)WANG JUNFENG, Yang Ming et al. Magnetic-field-induced transitions and evolution of magnetotransport properties in quasi-two-dimensional KMo₆O₁₇in the charge-density-wave phase.Physical Review B89, 035137 (2014)

59)L.R. Shi, Z.C. Xia*, Z. Jin, M. Wei, J.W. Huang, B.R. Chen, L.X. Xiao, H.K. Zuo, Z.W. Ouyang,High magnetic field induced spin flip/flop behavior and magnetic phase diagram of CuFe_1−xGa_xO₂,J. Solid State Chem., 219, (2014) 152–158.

60)Nianming Xia，Liran Shi，Zhengcai Xia*，Borong Chen，Zhao Jin，Yeshuai Wang，Zhongwen Ouyang，HuakunZuo，Yining Shen，Dynamic behavior of magnetoelectric coupling of CuFeO₂induced by a high magnetic field，J. Appl. Phys. 115, 114107 (2014).

61)ShenYining，Wang Ruilong; Sun Zhigang; Cheng Gang; XiaZhengcai*; Li Liang，Direct observation of magnetostructural transition in the Ni-Mn-Sn alloy using in situ optical microscope，J Mater Sci: Mater Electron25，(2014) 2030–2034

62)WANG Ye-Shuai(王业率), XIA Nian-Ming(夏念明), ZUO Hua-Kun(左华坤),SHEN Yi-Ning(沈逸宁), XIA Zheng-Cai(夏正才) *, Switching Behavior Induced by Electric and Magnetic Fields in (La_0.73Bi_0.27)_0.67Ca_0.33MnO₃,CHIN. PHYS. LETT.,31, (2014) 047501

63)J.W. Huang, H.K. Zuo, G. Cheng, B.R. Chen, Z. Jin,Z.C. Xia*, Unusual dilution effect of non-magnetic Al-substitution in intermetallic DyAg,J. Magn. Magn.Mater.,352, (2014) 56–60

64)Fengxia Yang^*, Gen Yu, Zhengcai Xia^*Chong Han, TingtingLiu,andDuanming Zhang, Low-temperature ferromagnetic properties in Co-doped Ag₂Se nanoparticles,Appl. Phys. Lett., 104, 012106 (2014)

65)Peng, L.P., Xu, L., Xia, Z.C^*，Study the high photocatalytic activity of vanadium and phosphorus co-doped TiO₂from experiment and DFT calculations，Computational Mater. Sci.，83, 309-317(2014)

66)C. Shang, Z.C. Xia^*, Z. Jin, L.R. Shi, J.W. Huang, B.R. Chen, M. Wei, L.X. Xiao, L. Liu, Y. Huang Effect of Ti ion doping on martensitic transition of La_0.5Sr_0.5Mn_1−xTi_xO_3,J. Alloys Comp. 588, 53-58e (2014)

67)B.R.Chen, Z.C.Xia*, H.N.Li, L.X.Xiao, J.W.Huang, Y.Y.Wu, Z.W.Ouyang, Z.Jin, L.R. Shi, M.Wei,Enhancement of the magnetic sensitivity of singlet to triplet transition in Fe-dopantSr₃(CrFe)₂O_8,J. Magn. Magn. Mater.344, (2013) 85–88.

68)Zhengcai Xia, Borong Chen, Yuying Wu, Zhongwen Ouyang, Yue Wu, LixiaXiao,Junwei Huang, Lirang Shi, Cui Shang, Zhao Jin, and Liang Li, Avalanche transition with super-bandwidth magnetic field response in (La_0.73Bi_0.27)_0.67Ca_0.33MnO₃,Appl. Phys. Lett., 102, 192408 (2013).

69)M.Y. Ruan, Z.W. Ouyang*, S.S. Sheng, X.M. Shi, Y.M. Guo, J.J. Cheng, and Z.C. Xia, “High-field magnetization and ESR studies of spin-chain compound Ca₃CoMnO₆”,J. Magn. Magn. Mater.344, 55-59 (2013).

70)S.S. Sheng, Z.W. Ouyang*, J. Chen, M.Y. Ruan, X.M. Shi, and Z.C. Xia, “Magnetic anisotropy and spin-glass behavior in spin-chain compound Ca₃Co_1.62Mn_0.38O₆”,J. Alloys Compd.556, 287-291 (2013).

71)Kim Heon-Jung, Kim Hi-Seok, WANG JUNFENG et al. Dirac versus Weyl fermions in topological insulators: Adler-Bell-Jackiw anomaly in transport phenomena.Physical Review Letters111, 246603 (2013)

72)[9] Kim Heon-Jung, Kim Hi-Seok, WANG JUNFENG et al. Topological phase transitions driven by magnetic phase transitions in Fe_xBi₂Te₃(0≤x≤0.1) single crystals.Physical Review Letters111 110, 136601 (2013)

73)D.-Y. Wu, X.-X. Zhang, P. Huang, W. Huang, M.-Y. Ruan, Z.-W. Ouyang, “Tuning Transverse Anisotropy in Co^III−Co^II−Co^IIIMixed-Valence Complex toward Slow Magnetic Relaxation”,Inorg. Chem., 52, 10976 (2013).

74)W. Huang, T. Liu, D.-Y. Wu, J.-J. Cheng, Z.-W. Ouyang, C.-Y. Duan, “Field-induced slow relaxation of magnetization in a tetrahedral Co(II) complex with easy plane anisotropy”,Dalton Trans., 42, 15326 (2013).

75)L.X. Xiao, B.R. Chen, Y.Y. Wu, J.W. Huang, H.N. Li, L.P. Peng, Z.C. Xia*, Partially irreversible metamagnetic behavior induced by magnetic field in La_0.27Nd_0.4Ca_0.33MnO₃J. Alloys Comp.545 (2012) 46–49.

76)Z.W. Ouyang*, S.S. Sheng, J. Chen, X.M. Shi, M.Y. Ruan, Z.C. Xia and L. Li, “Spin-glass-like freezing in spin-chain compounds Ca₃Co_2-xMn_xO₆”,J. Appl. Phys.112, 103923 (2012).

77)M.Y. Ruan, Z.W. Ouyang*, J. Chen, S.S. Sheng, Z.C. Xia, and L. Li, “Effect of nonmagnetic Sc ion on the intrachain coupling in spin-chain compounds Ca₃Co_2-xSc_xO₆”,J. Appl. Phys.111, 043910 (2012).

78)J. Chen, Z.W. Ouyang*, N.M. Xia, S.S. Sheng, Y.Y. Wu, Z.C. Xia, and L. Li, “Crystal structure, magnetic properties and ESR spectra of Ca₃Co_2-xFe_xO₆”,J. Alloys Compd.511, 139-143 (2012)

79)H. N. Li, Z. Y. Sun, Z. C. Xia*, J. W. Huang, L. X. Xiao, L. P. Peng, Y. Y. Wu, G. H. Du, Z. W. Ouyang, L. Li, Y. Huang, and P. R. Chen. Spin-flip transition and on-onedimensional magnetic coupling in quasi-one-dimensional oxygen deficient Sr₆Co₅O_15–d.Phys. Status Solidi B249(2012) 1072–1076

80)Z.C. Xia, L.X. Xiao, L.P. Peng, J.W. Huang, P.R. Chen, Z.W. Ouyang, Y.Y. Wu, H.N. Li，Unusual magnetization suppression induced by higher magnetic field in (La_0.83Bi_0.17)_0.67Ca_0.33MnO₃J. Magn. Magn. Mater., 324 3040(2012)

81)H. N. Li, J. W. Huang, L. X. Xiao, L. P. Peng, Y. Y. Wu, G. H. Du, Z. W. Ouyang, B. R. Chen, and Z. C. Xia*. Spin reorientation and spin-flop transition in multiferroic manganites Y_1–xTb_xMnO₃(x = 0, 0.1, 0.2) single crystals.J. Appl. Phys.111, 083913 (2012)

82)Anzheng Hu Haina Li, Zhiyong Jia, Zhengcai Xia* TiO₂nanorods branched on fast-synthesized large clearance TiO₂nanotube arrays for dye-sensitized solar cellsJ. Solid State Chem.,184, 2936（2011）

83)Kondo Araki, WANG JUNFENG et al. High-field magnetization and magnetic phase transition in CeOs₂Al₁₀.Physical Review B83, 180415(R) (2011)

84)WANG JUNFENG et al. High magnetic field induced phases and half-magnetization plateau in the S=1 kagome compound Ni₃V₂O₈. Physical Review B 84, 220407(R) (2011)

85)Y. Y. Wu, H. N. Li, Z. C. Xia^*,Y. Huang, Z. W. Ouyang, L. Li, L. X. Xiao, L. P. Peng, J. W. Huang, and H. K. Zuo, Magnetic field-induced metamagnetic transitions of Pr_0.5Ca_0.5Mn_0.97Ga_0.03O₃J. Appl. Phys. 110, 013907 (2011)

86)Yuying Wu, Haina Li, Zhengcai Xia^*, Gufei Zhang, Johan Vanacken, Victor V. Moshchalkov, Joule Heating Induced Nonlinear Behavior in the Phase-Separated System (La_0.73Bi_0.27)_0.67Ca_0.33MnO₃,J Low Temp Phys176，163 (2011)

87)H.N.Li,Y.Y.Wu,G.Cheng, Y.Huang, S.L.Wang,L.Li,Z.C.Xia^*Effect of non-magnetic doping on multi-step magnetization behavior of Dy_50-xAl_xAg₅₀J. Alloys Comp.509，2654 (2011)

88)S.S. Sheng Z.W. Ouyang*, N.M.Xia, J. Chen, Y.Y. Wu, Z.C. Xia, and L. Li, “Anomalies of inverse direct current susceptibility in spin-chain compounds Ca₃Co_2-xMn_xO₆”,J. Appl. Phys.110, 123910 (2011).

89)Z.W. Ouyang*, N.M. Xia, Y.Y. Wu, S.S. Sheng, J. Chen, Z.C. Xia, L. Li, and G.H. Rao, “Short-range ferromagnetic correlations in the spin-chain compound Ca₃CoMnO₆”,Phys. Rev. B84, 054435 (2011).

90)Z.W. Ouyang*, N.M. Xia, S.S. Sheng, J. Chen, Z.C. Xia, G.H. Rao, and X.H. Zheng, “Structural distortion and orbital ordering in the triangular-lattice antiferromagnet NaVO₂from first principles”,Phys. Rev. B83, 094417 (2011)

91)Haina Li, Yuying Wu, Hongwei Yu, Ziyu Chen, Yan Huang, Shaoliang Wang, Liang Li, Zhengcai Xia^*, Abnormal magnetization and field-induced transition in (La_0.73Bi_0.27)_0.67Ca_0.33MnO_{3 ,}Physica B405，3842 (2010)

92)WANG JUNFENG et al. Fabrication and enhanced magnetoresistance of SiO₂-coated Fe₃O₄nanosphere compact.Applied Physics Letters90, 213106 (2007)

93)WANG JUNFENG et al. Low-temperature specific heat of the quasi-two dimensional charge density wave compound KMo₆O₁₇.Physical Review B73, 193102 (2006)

94)Z.M. Tian, Y. Kohama, T. Tomita, H. Ishizuka, T. H. Hsieh, J. J. Ishikawa, K. Kindo, L. Balents, S. Nakatsuji, Field-induced quantum metal-insulator transition in the pyrochlore iridate Nd2Ir2O7, Nat. Phys (2016) 12, 134

95)M. Nakayama, T. Kondo, Z. Tian, J. J. Ishikawa, M. Halim, C. Bareille, T. Tomita, et al.Slater to Mott crossover in the metal to insulator transition of Nd2Ir2O7, Phys. Rev. Lett, 117, 056403 (2016)

96)Y.X. Gao, C.M. Zhu, L.G. Wang, Q.Guo, Z.M.Tian*,S.L. Yuan, exchange bias effect in CuCr2O4/Cr2O3 nanogranular systems, J. Alloy.Compd, 673, 126 (2016)

97)LG. Wang, C.M. Zhu, Z.M.Tian, H.Luo, DLGC. Bao, S.L. Yuan, negative magnetization and zero field cooled exchange bias effect in Co0.8Cu0.2Cr2O4 ceramics, Appl.Phys. Lett, 107, 152406 (2015)

98)Z. M. Tian, C. M. Zhu, Z. W. Ouyang, et al.Susceptibility, high-field magnetization and ESR studies in a spin 5/2 triangle-latticle antiferromagnet Ba3MnSb2O9, J. Mag. Magn. Mater, 360, 10 (2014)

99)Z. M. Tian, C. M. Zhu, Y. Liu, J. Shi, Z. W. Ouyang, et al.Size-dependent training effect in exchange coupled NiFe2O4/NiO nanogranular systems, J. Appl. Phys, 115, 083902 (2014)

100)Z. M. Tian, S. Huang, Y. Qiu, S. L Yuan, Y. Y. Wu, L Li, Size-dependent scaling of exchange bias in NiFe2O4/NiO nanogranular systems synthesized by a phase separation method, J. Appl. Phys, 113,143906 (2013)

101)Z. M. Tian, J. T. Chen, S. L. Yuan, et al, Cooling field and temperature dependence on trainning effect in NiFe2O4-NiO nanograular system, J. Appl. Phys. 110, 103902 (2011)

102)Z. M. Tian, J. T. Chen, S. L. Yuan, et al, Exchange bias effect in multiferroic CoCr2O4/Cr2O3 nanogranular system synthesized through a phase segregation route, J. Appl. Phys. 110, 053907 (2011)

103)Z. M. Tian, S. L. Yuan, S. Y. Yin, et al, Spin-glasslike behavior and exchange bias in multiferroic Bi1/3Sr2/3FeO3 ceramics, Appl. Phys. Lett, 96, 142516 (2010)

104)Z. M. Tian, Y. Qiu, S. L. Yuan, et al, Enhanced multiferroic properties in Ti-doped Bi2Fe4O9 ceramics, J. Appl. Phys, 106, 103912(2010)

105)Z. M. Tian, S. L. Yuan, X. L. Wang, et al, Size effect on magnetic and ferroelectric properties in Bi2Fe4O9 multiferroic ceramics, J. Appl. Phys. 106, 103912 (2009)

106)Z. M. Tian, S. L. Yuan, S. Y. Yin, et al, Exchange bias effect in a granular system of NiFe2O4 nanoparticles embedded in an antiferromagnetic NiO matrix, Appl. Phys. Lett, 93, 222505 (2008)

107)S. Y. Yin, S. L. Yuan, Z. M. Tian, et al, Effect of particle size on the exchange bias of Fe-doped CuO nanoparticles, J. Appl. Phys. 107, 043909 (2010)

108)X. F. Zheng, S. L. Yuan, Z. M. Tian, et al, Nickel/Nickel Phosphide Core-shell structured nanoparticles: synthesis, chemical, and magnetic architecture, Chem. Mater, 21, 4839-4845 (2009)

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