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図書
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by G. W. Leddicotte
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論文
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Inami, Shinnosuke ; Nishio, Masaki ; Hayashi, Yoshihito ; Isobe, Kiyoshi ; Kameda, Hiroyuki ; Shimoda, Tatsuya
概要:
金沢大学理工研究域物質化学系<br />An all-inorganic complex, [Mn2{(CVO3) 5}2]6- (1), was synthesized, and the structure determination r
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eveals a dinuclear manganese complex coordinated by two cyclic pentavanadate ligands. The cyclic pentavanadate units sandwich the edge-sharing octahedral dimanganese core through, coordination of the oxido group of the pentavanadate. A. dinuclear cobalt complex with, a cyclic decavanadate, [Co 2(OH2)2(VO3)10]6- (2), was also synthesized. The structure analysis reveals a dinuclear cobalt complex with a macrocyclic decavanadate, which is composed of 10 VO4 units joined by the vertex. Sharings. The CoO6 octahedrons are edge-shared, with each cobalt octahedron coordinated to five oxido groups from the decavanadate. The remaining site is occupied by - water. The coordinated water molecules are supported with hydrogen bonds in two directions. Complex 2 in acetonitrile shows no reactivity with dioxygen even at low temperature, and the cyclic voltammogram of 2 shows no redox chemistry in acetonitrile. Complex 2 exhibits chromism by water exposure both, in the solid state and. in acetonitrile. Complex 2 is green-yellow in color, and. the addition of water causes the complex to turn brown. After heating the sample, it returns to its original color in a reversible manner. The EXAFS data in acetonitrile is also reported, and is consistent with the solid-state structure. © Wiley-VCH Verlag GmbH & Co. KGaA.
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論文 |
論文
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Kinoshita, Yayoi ; Shiga, Hideaki ; Washiyama, Kohshin ; Ogawa, Daisuke ; Amano, Ryohei ; Ito, Makoto ; Tsukatani, Toshiaki ; Furukawa, Mitsuru ; Miwa, Takaki
概要:
金沢大学医学部附属病院耳鼻咽喉科<br />Little is known regarding how alkali metal ions are transported in the olfactory nerve following t
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heir intranasal administration. In this study, we show that an alkali metal ion, thallium is transported in the olfactory nerve fibers to the olfactory bulb in mice. The olfactory nerve fibers of mice were transected on both sides of the body under anesthesia. A double tracer solution (thallium-201, 201Tl; manganese-54, 54Mn) was administered into the nasal cavity the following day. Radioactivity in the olfactory bulb and nasal turbinate was analyzed with gamma spectrometry. Auto radiographic images were obtained from coronal slices of frozen heads of mice administered with 201Tl or 54Mn. The transection of the olfactory nerve fibers was confirmed with a neuronal tracer. The transport of intranasal administered 201Tl/54Mn to the olfactory bulb was significantly reduced by the transection of olfactory nerve fibers. The olfactory nerve transection also significantly inhibited the accumulation of fluoro-ruby in the olfactory bulb. Findings indicate that thallium is transported by the olfactory nerve fibers to the olfactory bulb in mice. The assessment of thallium transport following head injury may provide a new diagnostic method for the evaluation of olfactory nerve injury. © The Author 2007. Published by Oxford University Press. All rights reserved.
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