[1] Y. Y. Gong, D. H. Wang*, Q. Q. Cao, E. K. Liu, J. Liu, Y. W. Du, Electric field control of the magnetocaloric effect, Adv. Mater., 2015, 27(5): 801-805.
[2] Y. Y. Gong, D. H. Wang*, Q. Q. Cao, Y. W. Du, T. Zhi, B. C. Zhao, J. M. Dai, Y. P. Sun, H. B. Zhou, Q. Y. Lu and J. Liu, Textured, dense and giant magnetostrictive alloy from fissile polycrystal, Acta Mater., 2015, 98: 113-118.
[3] Y. Y. Gong, L. Zhang,Q. Q. Cao, D. H. Wang* and Y. W. Du, Large reversible magnetostrictive effect in the Gd1-xSmxMn2Ge2 (x=0.37, 0.34) alloys at room temperature, J. Alloys Compd., 2015, 628: 146-150.
[4] Y. Y. Gong, J. Liu, G. Z. Xu, C. L. Chen, F. Xu* and D. H. Wang, Low field-induced large magnetostriction in MnCoSi0.98B0.02 alloy by tuning tricritical point. Scripta Materialia, 2017, 127: 165–168.
[5] N. Hassan, F. H. Chen, M. G. Zhang, I. A. Shah, J. Liu, Y. Y. Gong*, G. Z. Xu, F. Xu*, Realisation of magnetostructural coupling and a large magnetocaloric effect in the MnCoGe1+x system, J. Magn. Mag. Mater. 2017, 439: 120–125.
[6] Y. T. Yang, Y. Y. Gong, S. C. Ma, C. J. Shen, D. H. Wang*, Q. Q. Cao, Z. C. Zhong and Y. W. Du, Electric-field control of exchange bias field in a Mn50.1Ni39.3Sn10.6/piezoelectric laminate, J. Alloys Compd., 2015, 619: 1-4.
[7] S. C. Ma*, D. Hou, Y. Y. Gong, L. Y. Wang, Y. L. Huang, Z. C. Zhong, D. H. Wang and Y. W. Du, Giant magnetocaloric and magnetoresistance effects in ferromagnetic Mn1.9Co0.1Sb alloy, Appl. Phys. Lett., 2014, 104(2): 022410.
[8] D. Q. Han, F. Yang, Y. Y. Gong and S. G. Yang*, Synthesis of magnetite films on copper substrate by hydrothermal method, Surf. Eng., 2015, 31(7): 481-485.
[9] Y. Fang, S. M. Yan,Y. Y. Gong, W. L. Zhu, Q. Q. Cao*, D. H. Wang and Y. W. Du, Multiple sign reversals of the exchange bias field in polycrystalline SmCr0.9Fe0.1O3, Chin. Phys. B, 2014, 23(12): 127502.
[10] C. J. Shen, Q. Liu, Y. Y. Gong, D. H. Wang* and Y. W. Du, Magnetic phase transition and magnetocaloric effect in Mn1-xZnxCoGe alloys, Chin. Phys. B, 2014, 23(9): 097502.
[11] L. Y. Wang, Q. Li, Y. Y. Gong, D. H. Wang*, Q. Q. Cao and Y. W. Du, The Positive and negative magnetodielectric effects in double perovskite Pr2CoMnO6, J. Am. Ceram. Soc., 2014, 97(7): 2024-2026.
[12] S. C. Ma, Y. Wu, Y. L. Huang, Y. Y. Gong, Y. H. Hou, J. F. Ou, Z. C. Zhong, D. H. Wang* and Y. W. Du. Ferromagnetism and double magnetic phase transitionsin rapidly solidified Mn1.13Ni1.03Fe0.23Ge0.61 ribbons, J. Alloys Compd., 2014, 588: 316-320.
[13] J. Liu, Y. Y. Gong, G. Z. Xu, G. Peng, I. A. Shah, N. Hassan, F. Xu*, Realization of magnetostructural coupling by modifying structural transitions in MnNiSi-CoNiGe system with a wide Curietemperature window, Sci. Rep., 2016, 6: 23386.
[14] J. Liu, Y. Si, Y. Y. Gong, G. Z. Xu, E. Liu, F. Xu*, D. H. Wang*, Enhanced magnetic refrigeration performance in metamagnetic MnCoSi alloy by high-pressure annealing, J. Alloys Compd., 2017, 701: 858-863.
[15] I. A. Shah, N. Hassan, J. Liu, Y. Y. Gong, G. Z. Xu, Feng Xu*, Effect of Sb-doping on martensitic transformation and magnetocaloric effect in Mn-rich Mn50Ni40Sn10-xSbx (x =1, 2, 3, and 4) alloys, Chin. Phys. B., 2017, 26: 017501.
[16] G. Z. Xu, Y. R. You, Y. Y. Gong, E. Liu, F. Xu*, W. H. Wang, Highly-dispersive spin gapless semiconductors in rare-earth-element contained quaternary Heusler compounds, J. Phys. D: Appl. Phys. 2017, 50: 105003.
[17] Y. R. You, G. Z Xu*, F. Hu, Y. Y. Gong, E. Liu, G. Peng, F. Xu*, Designing magnetic compensated states in tetragonal Mn3Ge-based Heusler alloys, J. Magn. Mag. Mater. 2017, 429: 40–44.