O
Osamu Sato
Researcher at Kyushu University
Publications - 473
Citations - 19429
Osamu Sato is an academic researcher from Kyushu University. The author has contributed to research in topics: Spin crossover & Spin transition. The author has an hindex of 67, co-authored 458 publications receiving 17927 citations. Previous affiliations of Osamu Sato include University of Tokyo & Nanjing University.
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An S = 3 cyanide-bridged tetranuclear FeIII2NiII2 square that exhibits slow relaxation of magnetization: synthesis, structure and magnetic properties
TL;DR: Magnetic studies for complex show ferromagnetic coupling (J/k = 10.12 K) giving rise to an S = 3 ground state; magnetic susceptibility measurements performed on sample showed evidence of the slow relaxation effects possibly associated with single-molecule magnet behavior.
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Pseudohalide-bridged five-coordinate Ni(II) or Co(II) complexes with bulky bidentate ligands : Magneto-structural correlationship
TL;DR: In this article, a doubly end-on azido-bridged binuclear binuclear complex was synthesized and characterized by single crystal X-ray diffraction analysis and magnetic studies.
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Directional Electron Transfer in Crystals of [CrCo] Dinuclear Complexes Achieved by Chirality-Assisted Preparative Method
Shinji Kanegawa,Yoshihito Shiota,Soonchul Kang,Kazuyuki Takahashi,Hajime Okajima,Akira Sakamoto,Tatsuya Iwata,Hideki Kandori,Kazunari Yoshizawa,Osamu Sato +9 more
TL;DR: A synthetic and crystal engineering strategy is devised that enables the selective synthesis of a [CrCo] heterometallic dinuclear complex with a polar crystal structure, wherein polarization changes stem from intramolecular charge transfer between Co and the ligand.
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Extraventricular origin of the cerebrospinal fluid: formation rate quantitatively measured in the spinal subarachnoid space of dogs
TL;DR: The experimental procedures were based upon the concept that the decrease in inulin concentration occurring during the perfusion was exclusively a function of the volume of newly formed cerebrospinal fluid in the system.
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A Secondary Reagent-Assisted Synthesis of A Novel NiII−MoIV Chiral Coordination Polymer
TL;DR: With the aid of a secondary reagent [CuII(tren)](ClO4)2, a novel chiral one-dimensional coordination polymer was inadvertently but reproducibly synthesized, which crystallizes in a chiral space group P212121 and shows a complex triple-stranded helical structure as discussed by the authors.