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成果及论文

吸波方向文章

1. H. Wang, H. H. Guo, Y. Y. Dai, D. Y. Geng, Z. Han, D. Li, T. Yang, S. Ma*, W. Liu, Z. D. Zhang, Optimal electromagnetic-wave absorption by enhanced dipole polarization in Ni/C nanocapsules, Appl. Phys. Lett. 101 (2012) 083116.

2. H. Wang, Y. Y. Dai, W. J. Gong, D. Y. Geng, S. Ma*, D. Li, W. Liu, Z. D. Zhang, Broadband microwave absorption of CoNi@C nanocapsules enhanced by dual dielectric relaxation and multiple magnetic resonances, Appl. Phys. Lett. 102 (2013) 223113.

3. H. Wang*, Y. Y. Dai, D. Y. Geng, S. Ma*, D. Li, J. An, J. He, W. Liu, Z. D. Zhang” CoxNi100-x nanoparticles encapsulated by curved graphite layers: controlled in-situ metal-catalytic preparation and broadband microwave absorption” Nanoscale 7 (2015) 17312. 

4. A. Hua, F. Wei, D. S. Pan, L. Yang, Y. Feng, M. Z. Li, Y. Wang, J. An, D. Y. Geng, H. Y. Liu, Z. H. Wang, W. Liu, S. Ma*, J. He, Z. D. Zhang “Wide-band microwave absorption by in situ tailoring morphology and optimized N-doping in nano-SiC” Appl. Phys. Lett. 111 (2017) 223105. 

5. An Hua, Desheng Pan, Yong Li, Jian Luan, Yu Wang, Jun He, Dianyu Geng, Wei Liu, Song Ma*, and Zhidong Zhanga “Fe3Si-core/amorphous-C-shell nanocapsules with enhanced microwave absorption” J. Mag. Mag. Mater. 471 (2019) 561–567. 

6. Xun Meng, Weiwei Yang*, Guanghui Han, Yongsheng Yu*, Song Ma*, Wei Liu and Z. D. Zhang, “Three-dimensional foam-like Fe3O4@C core-shell nanocomposites: Controllable synthesis and wideband electromagnetic wave absorption properties” J. Mag. Mag. Mater. 502 (2020) 166518.

7. An Hua, Yong Li, Desheng Pan, Jian Luan, Yu Wang, Jun He, Shufang Tang, Dianyu Geng, Song Ma*, Wei Liu, Zhidong Zhang “Enhanced wideband microwave absorption of hollow carbon nanowires derived from a template of Al4C3@C nanowires” Carbon 161 (2020) 252-258.

8. S. Z. Li, L. Ma, Z. X. Lei, A. Hua, A. Q. Zhang, Y. H. Song, F. C. Liu, D. Y. Geng, W. Liu, S. Ma* and Z.D. Zhang, “Bifunctional Two-Dimensional Nanocomposite for Electromagnetic Wave Absorption and Comprehensive Anti-corrosion”, Carbon 186 (2022) 520-529.

9. Z. X. Lei, S. Z. Li, A. Q. Zhang, Y. H. Song, N. He, M. Z. Li, D. Y. Geng, W. Liu, S. Ma*, Z. D. Zhang, “Electromagnetic wave absorption superalloy/graphite magnetic nanocapsules applied in wide temperature range”, Composites Part B 234 (2022) 109692.  

10. Lin Ma, Shuaizhen Li, Fuchun Liu*, Song Ma*, En-Hou Han, Zhidong Zhang, “Metal-organic framework-derived Co/C composite with high magnetization as broadband electromagnetic wave absorber” Journal of Alloys and Compounds 906 (2022) 164257 

11. Z. X. Lei, Y. X. Song, M. Z. Li, S. Z. Li, Y. Cui, D. Y. Geng, W. Liu, S. Ma*, Z. D. Zhang,” Multi-carbon Encapsulating Soft-magnetic Nanocomposite with Environmentally Adaptive Wideband Electromagnetic Wave Absorption” J. Alloy. Compound. 936 (2023) 168216, (5 March) 

12. Z. G. Xie, D. Y. Geng, X. G. Liu, S. Ma, Z. D. Zhang, “Magnetic and Microwave absorption Properties of Graphite-coated (Fe, Ni) Nanocapsules” J. Mater. Sci. Tech. 27 (2011) 607. 

13. J. H. Wang, H. Wang, J. J. Jiang, W. J. Gong, D. Li, Q. Zhang, X. G. Zhao, S. Ma, Z. D. Zhang, “Nonpolar Solvothermal Fabrication and Electromagnetic Properties of Magnetic Fe3O4 Encapsulated Semimetal Bi Nanocomposites” Cryst. Growth Des. 12 (2012) 3499.

14. X. G. Liu, D. Y. Geng, S. Ma, H. Meng, M. Tong, D. J. Kang, Z. D. Zhang, “Electromagnetic-wave absorption properties of FeCo nanocapsules and coral-like aggregates self-assembled by the nanocapsules” J. Appl. Phys. 111 (2012) 099904.

15. J. J. Jiang, H. Wang, H. H. Guo, T. Yang, W. S. Tang, D. Li, S. Ma, D. Y. Geng, W. Liu, Z. D. Zhang, “Microwave absorption properties of Ni/(C, silicides) nanocapsules” . Nanoscal. Res. Lett. 7(2012) 238.

16. J. J. Jiang, X. J. Li, Z. Han, D. Li, Z. H. Wang, D. Y. Geng, S. Ma, W. Liu, Z. D. Zhang,” Disorder-modulated microwave absorption properties of carbon-coated FeCo nanocapsules” J. Appl. Phys. 115 (2014) 17A514. 

17. Z. H. Wang, L. W. Jiang, D. Li, J. J. Jiang, S. Ma, H. Wang, D. Y. Geng, J. An, J. He, W. Liu,” Permittivity and permeability of Zn(Fe)/ZnO nanocapsules and their microwave absorption in the 2-18 GHz range ” J. Appl. Phys. 115 (2014) 17A527. 

薄膜拓扑与磁性文章

1. S. Ma*, A. Tan, J. X. Deng, J. Li, Z. D. Zhang, C. Hwang, Z. Q. Qiu*, “Tailoring the magnetic anisotropy of Py/Ni bilayer films using well aligned atomic steps on Cu(001)” Sci. Rep. 5 (2015) 11055. 

2. C. W. Liu, F. Wei, K. Premasiri, S. H. Liu, S. Ma,* Z.D. Zhang, and X. P. A. Gao*, “Non-Drude Magneto-Transport Behavior in a Topological Crystalline Insulator/Band Insulator Heterostructure” Nano Lett. 18 (2018) 6538−6543 

3. Feng Wei, Chieh-Wen Liu, Da Li, Chun-Yang Wang, Hong-Rui Zhang, Ji-Rong Sun, Xuan P. A. Gao,* Song Ma* and Zhidong Zhang“Broken mirror symmetry tuned topological transport in PbTe/SnTe heterostructures”Phys. Rev. B (R) 98 (2018) 161301(R). C

4. Anqi Zhang, Feng Wei, Chenhui Yan, Fei Wang, Song Ma* and Zhidong Zhang “Topological phase transition and highly tunable topological transport in topological crystalline insulator Pb1-xSnxTe (111) thin films” Nanotechnology 30 (2019) 275703. 

5. Feng Wei, Song Ma*, Zhidong Zhang, “Experimental observation of two types of linear magnetoresistance in topological crystalline insulator heterostructures”, J. Phys. D:Appl. Phys. 52 (2019) 285301. 

6. Feng Wei, Xuan P. A. Gao, Song Ma*, Zhidong Zhang, “Giant linear magnetoresistance and carrier density tunable transport in topological crystalline insulator SnTe thin film” Physica Status Solidi B 256 (2019) 1900139. 

7. C. H. Yan, F. Wei, Y. Bai, F. Wang, D. Li, Z. H. Wang, S. Ma*, Z. Han, W. Liu and Z. D. Zhang “Structure and topological transport in Pb-doping crystalline insulator SnTe (001) film” J. Mater. Sci. Technol. 44 (2020) 223–228 

8. Anqi Zhang, Daheng Liu, Teng Yang, Song Ma* and Zhidong Zhang “Electrical and Magneto-Electrical Transport in FeTe2 (100) Epitaxial Thin Films” ACS Applied Electric materials, 2022, 4, 7, 3183–3189,https://doi.org/10.1021/acsaelm.2c00031 March 21, 2022

9. A. Q. Zhang, D. H. Liu, T. Yang, S. Ma* and Z. D. Zhang, “Transport property of topological crystalline insulator SnTe (100) and ferrimagnetic insulator heterostructures” J. Mater. Sci. Technol. 131 (2022) 204-211, https://doi.org/10.1016/j.jmst. 2022.05.033 20 December 2022,

10. W. J. Gong, W. J. Yu, W. Liu, S. Guo, S. Ma, J. N. Feng, B. Li, and Z. D. Zhang “Exchange bias and its thermal stability in ferromagnetic/antiferromagnetic antidot arrays ” Appl. Phys. Lett. 101 (2012) 012407. 

11. B. Li, W. Liu, X.G. Zhao, S. Ma, W.J. Gong, J.N. Feng, F. Wang, Z.D. Zhang,” Ordering temperature of L10-FePd film reduced by Ag underlayer” Mater. Lett. 100 (2013) 58–61.

12. J. Li, A. Tan, K. W. Moon, A. Doran, M. A. Marcus, A. T. Young, E. Arenholz, S. Ma, R. F. Yang, C. Hwang, and Z. Q. Qiu “Imprinting antivortex states from ferromagnetic Fe into antiferromagnetic NiO inepitaxial NiO/Fe/Ag(001) microstructures” Appl. Phys. Lett. 104 (2014)112407.

13. J. Li, A. Tan, K. W. Moon, A. Doran, M. A. Marcus, A. T. Young, E. Arenholz, S. Ma, R. F. Yang, C. Hwang, and Z. Q. Qiu “Stabilizing a magnetic vortex/antivortex array in single crystalline Fe/Ag(001) microstructures” Appl. Phys. Lett. 104 (2014) 262409.

14. J. Li, A. Tan, K. W. Moon, A. Doran, M. A. Marcus, A. T. Young, E. Arenholz, S. Ma, R. F. Yang, C. Hwang, Z. Q. Qiu “Tailoring the topology of an artificial magnetic Skyrmion Nature communicatioin”, Nature Commun. 5 (2014) 5704. 

15. J. Li, A. Tan, S. Ma, R. F. Yang, E. Arenholz, C. Hwang, Z. Q. Qiu “Chirality Switching and Winding or Unwinding of the Antiferromagnetic NiO Domain Walls in Fe/NiO/Fe/CoO/Ag(001)” Phys. Rev. Lett. 113 (2014)147207. 

16. H. Y. Fu, H. Zhuang, L. Yang, T. Hantschel, S. Ma, Z. D. Zhang, ZD and X. Jiang, X, C” Synthesis and characterization of boron doped diamond/beta-SiC composite films” Appl. Phys. Lett. 110 (2017)031601. 

17. F. Wang, Y.  Bai, W. Liu, H. R. Zhang, S. K  Li, Z. M. Dai, S. Ma, X. G. Zhao, S. C. Wang, Z. J. Wang, Z. D. Zhang “Orientation-modulated exchange coupling in La0.67Ca0.33MnO3/CaMnO3 bilayer films” J. Mag. Mag. Mater. 428 (2017) 372-376. 

18. M. J. Chen, X. K. Ning, Z. J. Wang, P. Liu, S. F. Wang, J. L. Wang, G. S. Fu, S. Ma, W. Liu, and Z. D. Zhang” Polarization and charge-transfer effect on the transport properties in two-dimensional electron gases/LaNiO3 heterostructure” Appl. Phys. Lett. 112 (2018) 021601.

19. X. T. Zhao, W. Liu, S. K. Li, T. T. Wang, L. Liu, Y. H. Song, S. Ma, X. G. Zhao, Z. D. Zhang, “Asymmetric current-driven switching of synthetic antiferromagnets with Pt insert layers ” NANOSCALE 10 (2018) 7612-7618

20. Y. D. Gu, C. Song, H.R. Zhang, Z. C. Wang, B. Cui, F. Li, J. J. Peng, M. S. Saleem, G. Y. Wang, X. Y. Zhong, F. Wang, S. Ma, J. R. Sun, W. Liu, F. Pan, Z. D. Zhang, “Controllable oxygen vacancies, orbital occupancy and magnetic ordering in SrCoO3-delta films ” J. Mag. Mag. Mater. 454 (2018) 228-236  

磁制冷方向文章

1. S. Ma, D.Y. Geng, W. S. Zhang, W. Liu, X. L. Ma and Z. D. Zhang, Synthesis of a new type of GdAl2 nanocapsules with large cryogenic magnetocaloric effect and novel coral-like aggregates self-assembled by the nanocapsules, Nanotechnology 17 (2006) 5406. 

2. S. Ma, P. Z. Si, Y. Zhang, B. Wu, Y. B. Li, J. J. Liu, W. J. Feng, X. L. Ma, and Z. D. Zhang, High saturation magnetization FeB(C) nanocapsules, Script. Mater. 57, 265 (2007). 

3. S. Ma, W. F. Li, D. Li, D. K. Xiong, N. K. Sun, D. Y. Geng, W. Liu and Z. D. Zhang, Large cryogenic magnetocaloric effect in the blocking state of GdAl2/Al2O3 nanocapsules, Phys. Rev. B 76, 144404 (2007). 

4. S. Ma, W. B. Cui, D. Li, N. K. Sun, D. Y. Geng, X. Jiang, and Z. D. Zhang, Large cryogenic magnetocaloric effect of DyCo2 nanoparticles without encapsulation, Appl. Phys. Lett. 92, 173113 (2008). 

5. J. Li, S. Ma*, H. Wang, W. J. Gong, J. J. Jiang, S. J. Li, Y. Wang, D. Y. Geng and Z. D. Zhang, “Enhanced Cryogenic Magnetocaloric Effect Induced by Small Size GdNi5 Nanoparticles” J. Mater. Sci. Technol. 30,(2014) 973. 

6. F. Wei, S. Ma*, L. Yang, Y. Feng, J. Z. Wang, A. Hua, X.G. Zhao, D.Y. Geng, Z. D. Zhang,” A new scale for optimized cryogenic magnetocaloric effect in ErAl2@Al2O3 nanocapsules” J. Mater. Sci. Technol. 34 (2018) 848–854

7. X. G. Liu, D. Y. Geng, S. Ma, H. Meng, M. Tong, D. J. Kang, and Z. D. Zhang, Electromagnetic-wave absorption properties of FeCo nanocapsules and coral-like aggregates self-assembled by the nanocapsules, J. Appl. Phys. 104, 064319 (2008).

8. X. G. Liu, D. Y. Geng, J. Du, S. Ma, B. Li, P. J. Shang, and Z. D. Zhang, The large crygenic magnetocaloric effect of TbAl2 nanocapules, Scripta Mater. 59, 340 (2008).

9. X. G. Liu, J. Du, D. Y. Geng, S. Ma, J. M. Liang, M. Tong, and Z. D. Zhang, Co-doped Y2O3 optical functional nanoparticles and novel self-assembly squama-like aggregates, J. Alloy. Compd. 457, 517 (2008). 

10. X. G. Liu, D. Y. Geng, J. J. Jiang, B. Li, S. Ma, D. Li, W. Liu, Z. D. Zhang, “Magnetic properties and large cryogenic low-field magnetocaloric effect of HoCo2 nanoparticles without core/shell structure” J. Nanopart. Res. 12 (2010) 1167.

基本磁性、催化、电池与生物相互作用方向

1. S. Ma, Y. B. Wang, D. Y. Geng, J. Li, and Z. D. Zhang, Structure and magnetic properties of Co-Cr solid solution nanocapsules prepared by arc-discharge, J. Appl. Phys. 98 (2005) 094304. 

2. S. Ma, P. Z. Si, Y. Zhang, B. Wu, Y. B. Li, J. J. Liu, W. J. Feng, X. L. Ma, and Z. D. Zhang, High saturation magnetization FeB(C) nanocapsules, Script. Mater. 57, 265 (2007).

3. S. Ma, V. V. S. S. Srikanth, D. Maik, G. Y. Zhang, T. Staedler, and X. Jiang, From carbon nanobells to nickel nanotubes, Appl. Phys. Lett. 94 (2009) 013109. 

4. S. Ma, J. H. V. V. S. S. Srikanth, X. Sun, T. Staedler, X. Jiang, F. Yang, Z. D. Zhang, “Magnetism of amorphous carbon nanofibers” Appl. Phys. Lett. 95 (2009) 263105.

5. H. Wang, C.L. Chen, Y. X. Zhang, L. X. Peng, S. Ma,* T. Yang, H. H. Guo, Z. D. Zhang, D. S. Su, J. Zhang, “In situ oxidation of carbon-encapsulated cobalt nanocapsules creates highly active cobalt oxide catalysts for hydrocarbon combustion ”, Nature Commun. 6 (2015) 7181. 

6. J. Li, S. Ma*, H. Wang , W. Gong, J. J. Jiang , S. J. Li , Y. Wang, D. Y. Geng, Z. D. Zhang ” Synthesis of antiferromagnetic gadolinium dihydride nanoparticles and its large cryogenic magneto-caloric effect” 2015 IEEE International Magnetics Conference  (INTERMAG) DOI: 10.1109/INTMAG.2015.7156565.

7. Yin Wang, Zegao Wang, Qian Yang, An Hua, Song Ma,* Zhidong Zhangd and Mingdong Dong*, “Edge-oriented MoS2 supported on nickel/carbon core–shell nanospheres for enhanced hydrogen evolution reaction performance” New Journal of Chemistry, 43 (2019) 6146. 

8. Zengkai Wang, Tianke Wang, An Hua Lei Liu*, Song Ma*, Zhidong Zhang “Prolonged antimicrobial activity of silver core-carbon shell nanoparticles”, Korean J. Chem. Eng., 36 (2019) 1882-1889. 

9. Ying Zhang , Meiting Zhou, Yimin Gao, Lili Xu, Shuli Liu, Song Ma*, Zhidong Zhang, “Synthesis and Magnetocarloric effects of FeNi@SiO2 Nanocomposite Particles”, J. Mater. Sci. Eng. 6 (2020) 1830473. 

10. An Hua, Yong Li, Wenyang Zhou, Shuaizhen Lia, Renfei Cheng, Jinxing Yang, Jian Luan, Xiaohui Wang, Chunhai Jiang, Da Lia*, Song Ma*, Wei Liu, and Zhidong Zhang” A novel strategy for synthesizing the large size Co9S8@C nanosheets as anode for lithium-ion batteries with superior performance”, J. Alloy. Compound. 895 (2022) 162668. 

11. W. J. Feng, D. Li, W. F. Li, S. Ma, Y. B. Li, D. K. Xiong, W. S. Zhang, and Z. D. Zhang, Structure and magnetic properties of Cr(N)-beta-Cr2N nanoparticles prepared by arc-discharge, J. Alloy. Compd. 425, 4 (2006).

12. D. Li, W. F. Li, S. Ma, and Z. D. Zhang, Electronic transport properties of NbC(C)-C nanocomposites, Phys. Rev. B 73, 193402 (2006).

13. D. Li, S. Ma, W. F. Li, B. Wu, and Z. D. Zhang, Disordering and the electronic transport behaviors of NbC-Al4C3-C composite, J. Mater. Sci. 42, 6929 (2007).

14. N. K. Sun, S. Ma, Q. Zhang, J. Du, and Z. D. Zhang, Large room-temperature magnetocaloric effects in Fe0.8Mn1.5As, Appl. Phys. Lett. 91, 112503 (2007).

15. N. K. Sun, Y. B. Li, D. Li, Q. Zhang, J. Du, D. X. Xiong, W. S. Zhang, S. Ma, J. J. Liu, and Z. D. Zhang, Magnetic, electronic transport and magneto-transport behaviors of CoxFe1-xMnP compounds, J. Alloy. Compd. 429, 29 (2007).

16. J. Du, W. B. Cui, Q. Zhang, S. Ma, D. K. Xiong, and Z. D. Zhang, Giant magnetocaloric effect in epsilon-(Mn0.83Fe0.17)3.25Ge antiferromagnet, Appl. Phys. Lett. 90, 042510 (2007).

17. X. F. Zhang, X. L. Dong, H. Huang, B. Lv, X. G. Zhu, J. P. Lei, S. Ma, W. Liu, and Z. D. Zhang, Synthesis, growth mechanism and magnetic properties of SiO2-coated Co nanocapsules, Acta Mater. 55, 3727 (2007).

18. X. F. Zhang, X. L. Dong, H. Huang, B. Lv, J. P. Lei, S. Ma, W. Liu, and Z. D. Zhang, Synthesis, structure and magnetic properties of B2O3/H3BO3-coated Fe nanocapsules, Mater. Sci. Eng., B 143, 76 (2007).

19. X. F. Zhang, X. L. Dong, H. Huang, B. Lv, X. G. Zhu, J. P. Lei, S. Ma, W. Liu, and Z. D. Zhang, Synthesis, structure and magnetic properties of SiO2-coated Fe nanocapsules, Mater. Sci. Eng., A 454, 211 (2007).

20. Y. J. Zhang, S. Ma, D. Li, Z. H. Wang, and Z. D. Zhang, Surfactant-assisted hydrothermal synthesis of chains self-assembled by cobalt microspheres, Mater. Res. Bull. 43, 1957 (2008).

21. Y. J. Zhang, S. Ma, D. Li, Z. H. Wang, and Z. D. Zhang, Surfactant-assisted hydrothermal synthesis of chains self-assembled by cobalt microspheres, Mater. Res. Bull. 43, 1957 (2008). 

22. Y. Zhang, S. N. Wang, S. Ma, J. J. Guan, D. Li, and Z. D. Zhang, Self-assembly multifunctional nanocomposites with Fe3O4 magnetic core and CdSe/ZnS quantum dots shell, J. Biomed. Mater. Res. Part A 85A, 840 (2008).

23. Z. H. Wang, D. Li, D. Y. Geng, S. Ma, W. Liu, and Z. D. Zhang, The characterizations of superconducting MoC/Mo2C nanocomposites embedded in a magnetic graphite matrix, Phys. Status Solidi A 205, 2919 (2008).

24. Z. H. Wang, D. Li, D. Y. Geng, S. Ma, W. Liu, and Z. D. Zhang, Magnetic and electronic transport properties of nanocomposites of superconducting Mo carbides' nanoparticles embedded in a ferromagnetic carbon matrix, J. Mater. Res. 24 (2009) 2229.

25. W. J. Feng, D. Li, Q. Zhang, Y. F. Deng, S. Ma, and Z. D. Zhang, Structure, magnetic and electrical transport properties of Mn4-xAgxN compounds, Mater. Sci.-Poland 27 (2009) 33. 

26. X. G. Liu, D. Y. Geng, X. L. Wang, S. Ma, H. Wang, D. Li, B. Q. Li, W. Liu, Z. D. Zhang, “Enhanced photocatalytic activity of Mo-{001}TiO2 core-shell nanoparticles under visible light” Chem. Commun. 46(2010) 6956. 

27. Y. Zhang, J. Y. Liu, S. Ma, Y. J. Zhang, X. Zhao, X. D. Zhang, Z. D. Zhang, “Synthesis of PVP-coated ultra-small Fe3O4 nanoparticles as a MRI contrast agent” J. Mater. Sci. - Mater. Med. 21(2010) 1205.

28. L. N. Cheng, Z. G. Chen, S. Ma, Z. D. Zhang, Y. Wang, H. Y. Xu, L. Yang, G. Han, K. Jack, G. Q. Lu, J. Zou, High Curie Temperature Bi1.85Mn0.15Te3 Nanoplates, J. Am. Chem. Soc. 134 (2012) 18920  

29. J. N. Feng, X. G. Zhao, X. K. Ning, C. W. Shih, W. C. Chang, S. Ma, W. Liu and Z. D. Zhang” Phase evaluation, magnetic, and electric properties of Mn60+xGa40−x (x=0-15) ribbons” J. Appl. Phys. 115 (2014) 17A750.

30. J. N. Feng, W. Liu, D.Y. Geng, S. Ma, T. Yu, X. T. Zhao, Z. M. Dai, X. G. Zhao Z. D. Zhang,” Large coercivity and unconventional exchange coupling in manganese oxide coated manganese gallium nanoparticles” Chin. Phys. B 23 (2014) 087503. 

31. Z. G. Chen, L. Yang, S. Ma, L. N. Cheng, G. Han, Z. D. Zhang, J. Zou “Paramagnetic Cu-doped Bi2Te3 nanoplates”, Appl.Phys. Lett. 104 (2014) 053105.

32. S. J. Li, D. Li, J. J. Jiang, G. B. Liu, S. Ma, W. Liu, Z. D. Zhang, “Growth process and magnetic properties of alpha-FeSe nanostructures ” J. Appl. Phys. 115, (2014) 17B502. 

33. F. Wang, Y. Q. Zhang, W. Liu, X. K. Ning, Y. Bai, Z. M. Dai, S. Ma, X. G. Zhao, S. K. Li and Z. D. Zhang “Abnormal magnetic ordering and ferromagnetism in perovskite ScMnO3 film” Appl. Phys. Lett. 106 (2015) 232906 

34. T. Yu, F. Wang, W. Liu, X. K. Ning, J. N. Feng, S. Ma, Z. H. Wang, Z. D. Zhang, D. Kim, C. J. Choi “Competing magnetic orders in La0.67Ca0.33MnO3/SrMnO3 multilayers film” 7TH IEEE INTERNATIONAL NANOELECTRONICS CONFERENCE (INEC) 2016

35. F. Wang, Y. Q. Zhang, Y. Bai, W. Liu, H. R. Zhang, W. Y. Wang, S. K. Li, S. Ma, X. G. Zhao, J. R. Sun, “Oxygen vacancy formation, crystal structures, and magnetic properties of three SrMnO3-delta films” Appl. Phys. Lett. 109 (2016) 052403.