1. F. Gao,H. L. Wang,M. Y. Cui,W. J. Ren*,C. W. Wang,S. Yano,X. Z. Liu,Z. He,B. Li*,and Z. D. Zhang,“Noncollinear commensurate antiferromagnetic structure in metallic Pr2PdAl7Ge4”,Phys. Rev. B 107 (2023) 214435.
2. M. R. Cong,H. Ge,L. Zhang,W. J. Ren*,N. Zhao,T. T. Li,S. M. Wang,J. L. Zhu,J. W. Mei,Q. Zhang,J. M. Sheng,F. Gao,B. Li,Z. D. Zhang,L. S. Wu*,“Magnetic phase diagram and multiple field-induced states in the intermetallic triangular-lattice antiferromagnet NdAuAl4Ge2 with Ising-like spins”,Phys. Rev. Mater. 7 (2023) 024423.
3. F. Gao,J. M. Sheng*,W. J. Ren*,Q. Zhang,X. H. Luo,J. Qi,M. R. Cong,B. Li,L. S. Wu,and Z. D. Zhang,“Incommensurate spin density wave and magnetocaloric effect in the metallic triangular lattice HoAl2Ge2”,Phys. Rev. B 106 (2022) 134426.
4. F. Gao,J. Q. Huang,W. J. Ren*,M. Z. Li,H. Wang,T. Yang,B. Li,and Z. D. Zhang,“Magnetic and transport properties of the topological compound DySbTe”,Phys. Rev. B 105 (2022) 214434.
5. W. J. Ren*,A. F. Wang,D. Graf,Y. Liu,Z. D. Zhang,W. G. Yin,and C. Petrovic,“Absence of Dirac states in BaZnBi2 induced by spin-orbit coupling”, Phys. Rev. B 97 (2018) 035147.
6. Z. P. Hou,W. J. Ren*,B. Ding,G. Z. Xu,Y. Wang,B. Yang,Q. Zhang,Y. Zhang,E. K. Liu,F. Xu,W. H. Wang*,G. H. Wu,X. X. Zhang,B. G. Shen,and Z. D. Zhang,“Observation of various and spontaneous magnetic skyrmionic Bubbles at room temperature in a frustrated kagome magnet with uniaxial magnetic anisotropy”,Adv. Mater. 29 (2017) 1701144.
7. B. Li*,X. H. Luo,H. Wang,W. J. Ren*,S. Yano,C. W. Wang,J. S,Gardner,K. D. Liss,P. Miao,S. H. Li,T. Kamiyama,R.Q. Wu,Y. Kawakita,Z. D. Zhang,“Colossal negative thermal expansion induced by magnetic phase competition on frustrated lattices in Laves phase compound (Hf,Ta)Fe2”,Phys. Rev. B 93 (2016) 224405.
8. T. F. Duan,W. J. Ren*,W. L. Liu,S. J. Li,W. Liu,and Z. D. Zhang,“Magnetic anisotropy of single-crystalline Mn3Sn in triangular and helix-phase states”,Appl. Phys. Lett. 107 (2015) 082403.
9. W. J. Ren* and Z. D. Zhang*,“Progress in bulk MgCu2-type rare-earth iron magnetostrictive compounds”,Chin. Phys. B 22 (2013) 077507 (topical review).
10. B. Li,W. Liang,W. J. Ren*,W. J. Hu,J. Li,and Z. D. Zhang,“Normal or Inverse magnetocaloric effects at the transition between antiferromagnetism and ferromagnetism”,Appl. Phys. Lett. 100 (2012) 242408.
11. B. Li,W. J. Ren*,Q. Zhang,X. K. Lv,X. G. Liu,H. Meng,J. Li,D. Li,and Z. D. Zhang,“Magnetostructural coupling and magnetocaloric effect in Ni-Mn-In”,Appl. Phys. Lett. 95 (2009) 172506.
12. J. J. Liu,W. J. Ren*,D. Li,N. K. Sun,X. G. Zhao,J. Li,and Z. D. Zhang,“Magnetic transitions and magnetostrictive properties of TbxDy1-x(Fe0.8Co0.2)2 (0.20 ≤ x ≤ 0.40)”,Phys. Rev. B75 (2007) 064429.
13. W. J. Ren*,J. J. Liu,D. Li,W. Liu,X. G. Zhao,and Z. D. Zhang,“Directly experimental evidence for anisotropy compensation between Dy3+ and Pr3+ ion”,Appl. Phys. Lett. 89 (2006) 122506.
14. W. J. Ren*,Z. D. Zhang,X. G. Zhao,W. Liu,and D. Y. Geng,“Magnetostriction and anisotropy compensation in TbxDy0.7-xPr0.3(Fe0.9B0.1)1.93 alloys”,Appl. Phys. Lett. 84 (2004) 562-564.
15. W. J. Ren*,Z. D. Zhang,X. P. Song,X. G. Zhao and X. M. Jin,“Composition anisotropy compensation and spontaneous magnetostriction in Tb0.2Dy0.8-xPrx(Fe0.9B0.1)1.93 alloys”,Appl. Phys. Lett. 82 (2003) 2664-2666.