Bin Zhang
Chinese Academy of Sciences
23 Papers
184 Citations
Bin Zhang is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Antiferromagnetism & Superconductivity. The author has an hindex of 14, co-authored 23 publications. Previous affiliations of Bin Zhang include University of Tokyo & China West Normal University.
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Papers
Mn3(HCOO)6: a 3D porous magnet of diamond framework with nodes of Mn-centered MnMn4 tetrahedron and guest-modulated ordering temperature.
TL;DR: 3D Mn3(HCOO)6, a 3D highly stable and flexible porous diamondoid framework based on Mn-centered MnMn4 tetrahedral nodes, exhibits a wide spectrum of guest inclusion behaviour and long-range magnetic ordering with guest-modulated critical temperature.
287
Synthesis and characterization of a porous magnetic diamond framework, Co3(HCOO)6, and its N2 sorption characteristic.
Zhe-Ming Wang,Bin Zhang,Mohamedally Kurmoo,Mark Green,Hideki Fujiwara,Takeo Otsuka,Hayao Kobayashi +6 more
TL;DR: Significant N2 sorption was observed for the desolvated framework suggesting that the material possesses permanent porosity, and the magnetic properties show a tendency to a 3D long-range magnetic ordering, probably antiferromagnetic with a spin canting arrangement below 2 K.
156
Crystal-to-crystal transformation from antiferromagnetic chains into a ferromagnetic diamondoid framework.
TL;DR: This work has shown that blue crystals composed of antiferromagnetic chains can be transformed into blue crystals compose of a ferromagnetic diamondoid framework with structural and magnetic changes.
113
A family of porous magnets, [M3(HCOO)6] (M = Mn, Fe, Co and Ni)
TL;DR: In this paper, a family of porous magnets of [M3(HCOO)6] (Mn, Fe, Co and Ni) with open diamond framework based on M-centred MM4 tetrahedral nodes, can be prepared by conventional solution chemistry method.
78
Guest-Induced Chirality in the Ferrimagnetic Nanoporous Diamond Framework Mn3(HCOO)6
TL;DR: In this article, a chiral magnet is obtained by the inclusion of chiral guest molecules into the channels of an achiral nanoporous ferrimagnet consisting of the Mn3(HCOO)6 (1) framework.
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