Jia Wang
Nanjing University
6 Papers
16 Citations
Jia Wang is an academic researcher from Nanjing University. The author has contributed to research in topics: Coordination geometry & Magnetization. The author has an hindex of 2, co-authored 6 publications.
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Papers
Influence of the Different Types of Auxiliary Noncarboxylate Organic Ligands on the Topologies and Magnetic Relaxation Behavior of Zn-Dy Heterometallic Single Molecule Magnets.
TL;DR: In this article, a Zn-Dy complex was synthesized by employing H2L, anhydrous ZnCl2, and Dy(NO3)3·5H2O reacting with auxiliary ligand teaH3 in the mixture of CH3OH and DMF.
22
Structurally modulated single-ion magnets of mononuclear β-diketone dysprosium(III) complexes.
Ming Kong,Xin Feng,Jing Li,Zhao-Bo Hu,Jia Wang,Xiao-Jiao Song,Zhao-Yang Jing,Yi-Quan Zhang,You Song +8 more
TL;DR: This work provides a visual and instructive perspective to the understanding of fine tuning auxiliary ligands to design structurally modulated SIMs of mononuclear β-diketone dysprosium(iii) complexes.
16
Switchable slow relaxation of magnetization in photochromic dysprosium(III) complexes manipulated by a dithienylethene ligand
TL;DR: In this paper, the photochromic and magnetic properties of two dithienylethene (DTE)-based complexes were experimentally studied in detail with the help of theoretical calculations.
9
Synthesis, crystal structures and magnetic properties of a 1D chain based on trinuclear Cu subunits and a Cu4Dy2 complex
TL;DR: In this article, the magnetic properties of a 1D-chain were investigated in the presence of the H3L ligand and the di-2-pyridyl ketone, and it was shown that 1 exhibits slow magnetic relaxation behavior, with an energy barrier Ueff of 6.06
2
Tuning magnetic anisotropy via terminal ligands along the Dy⋯Dy orientation in novel centrosymmetric [Dy2] single molecule magnets
TL;DR: The ligands coordinating to the DyIII ion at both terminals of the DyDy linkage improve the SMM properties of dinuclear DyIII complexes, and may provide a new strategy for obtaining din nuclear DyIII-based SMMs.