LiChen Wang
Capital Normal University
9 Papers
19 Citations
LiChen Wang is an academic researcher from Capital Normal University. The author has contributed to research in topics: Magnetic refrigeration & Antiferromagnetism. The author has an hindex of 2, co-authored 3 publications. Previous affiliations of LiChen Wang include Chinese Academy of Sciences.
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Papers
Giant low-field magnetocaloric effect in ferromagnetically ordered Er1–Tm Al2 (0 ≤ x ≤ 1) compounds
Shuxian Yang,Xin-Qi Zheng,Dingsong Wang,Juping Xu,Wen Yin,Lei Xi,Chao Chao Liu,Jun Lu,Jiawang Xu,Hua Zhang,Zhiyi Xu,LiChen Wang,Yihong Yao,Maosen Zhang,Yichi Zhang,Jianxin Shen,Shouguo Wang,Bao-gen Shen +17 more
TL;DR: In this paper , a giant low-field magnetocaloric effect in ferromagnetic ordered Er1-xTmxAl2 (0 ≤ x ≤ 1) compounds was reported, and the magnetic structure was characterized based on low-temperature neutron powder diffraction.
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Rotating magnetocaloric effect in textured polycrystalline Tb3NiGe2 compound with successive magnetic transitions
TL;DR: The magnetic and rotating magnetocaloric properties in textured Tb3NiGe2 compound were investigated in this paper, where two successive magnetic transitions, a ferrimagnetic to antiferromagnetic (AFM)-like transition at Tt = 130'K and an AFM to paramagnetic (PM)-to-paramagnetic (P) transition at TN = 144'K, were observed.
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Magnetocaloric effect in textured polycrystalline Ho2GdAl2
Wu Meiling,Hu Zhang,Long Kewen,Kun Tao,YiXu Wang,ChengFen Xing,YaNing Xiao,LiChen Wang,Yi Long +8 more
TL;DR: The rotation of textured Ho2GdAl2 alloy from a perpendicular to parallel direction under constant field results in a rotating magnetocaloric effect (MCE), which is larger than the conventional MCE.
13
Substitution effect of Ni2+ on the magnetism and electrical properties of Ca3CoMnO6 compound
Gaoshang Gong,Yaran Duan,Yuying Zuo,LiChen Wang,Jin Zhou,De Xu Liu,Yongqiang Wang,Zheng Wang,Yuling Su +8 more
TL;DR: In this article , a series of Ni 2+ doped Ca 3 Co 1- x Ni x MnO 6 (0≤ x ≤ 0.15) samples were prepared for their structure, magnetism and electrical properties.
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Successive inverse and normal magnetocaloric effects in the Mn-vacancy compound Mn 0.95 Co 0.75 Cu 0.25 Ge
TL;DR: In this paper, a thermostat is proposed based on the magnetostructural transition from antiferromagnetic (AFM) orthorhombic phase to ferromagnetic hexagonal phase, which may lead to a large inverse magnetocaloric effect (MCE).
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