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Solvate Ionic Liquid Electrolyte for Li–S Batteries
Dokko, Kaoru,Tachikawa, Naoki,Yamauchi, Kento,Tsuchiya, Mizuho,Yamazaki, Azusa,Takashima, Eriko,Park, Jun-Woo,Ueno, Kazuhide,Seki, Shiro,Serizawa, Nobuyuki,Watanabe, Masayoshi The Electrochemical Society 2013 Journal of the Electrochemical Society Vol.160 No.8
<P>Innovation in the design of electrolyte materials is crucial for realizing next-generation electrochemical energy storage devices such as Li–S batteries. The theoretical capacity of the S cathode is 10 times higher than that of conventional cathode materials used in current Li–ion batteries. However, Li–S batteries suffer from the dissolution of lithium polysulfides, which are formed by the redox reaction at the S cathode. Herein, we present simple solvate ionic liquids, glyme–Li salt molten complexes, as excellent electrolyte candidates because they greatly suppress the dissolution of lithium polysulfides. The molten complexes do not readily dissolve other ionic solutes, which leads to the stable operation of the Li–S battery over more than 400 cycles with discharge capacities higher than 700 mAh g-sulfur<SUP>−1</SUP> and with coulombic efficiencies higher than 98% throughout the cycles. Such high performance has not been realized to the best of our knowledge. Furthermore, the addition of a nonflammable fluorinated solvent, which does not break the solvate structure of the glyme–Li salt molten complexes, greatly enhances the power density of the Li–S battery. The strategic design of electrolyte properties provides opportunities for the development of new electrochemical devices with many different electrode materials.</P>
Anti-emetic Principles of Alpinia katsumadai Hayata
Ye Yang,Kaoru Kinoshita,Kiyotaka Koyama,Kunio Takahashi,Takaaki Tai,Yoshiki Nunoura,Kazuo Watanabe 한국생약학회 1999 Natural Product Sciences Vol.5 No.1
Bioassay-guided fractionation of anti-emetic constituents of Alpiraia katsumadai Hayata was performed. Nine compounds including one novel compound, (3R,5S)-trans-3,5-dihydroxy-1,7-diphenyl-1-heptene (9) were isolated from it. Among these compounds, four diarylheptanoids, one sesquiterpenoid and one flavonoid showed anti-emetic activity on copper sulfate induced-emesis in young chicks.
Iseki, Mineo,Matsunaga, Shigeru,Murakami, Akio,Ohno, Kaoru,Shiga, Kiyoshi,Yoshida, Kazuichi,Sugai, Michizo,Takahashi, Tetsuo,Hori, Terumitsu,Watanabe, Masakatsu Korean Society of Photoscience 2002 Journal of Photosciences Vol.9 No.2
Euglena gracilis abruptly changes its swimming direction after a sudden increase or decrease in incident light intensity, that is, step-up or step-down photophobic responses, resulting in photoavoidance or photoaccumulation, respectively. To identify the photoreceptor molecules for these UV-A/blue-light type photobehaviors, we purified a flavoprotein from isolated putative photosencory organelles (PFBs) of Euglena. The purified flavoprotein, which noncovalently bound flavin adenine dinucleotide (FAD), seemed to be a heterotetramer of alpha- and beta-subunits. Predicted amino acid sequences of each of the subunits were similar to each other and contained two FAD-binding domains each followed by an adenylyl cyclase catalytic domain. The purified flavoprotein actually showed adenylyl cyclase activity, being drastically elevated by blue-light irradiation. Suppression of gene expression of the flavoprotein (Photoactivated Adenylyl Cyclase, PAC) by RNA interference (RNAi) caused loss of the step-up photophobic response, demonstrating that PAC actually mediates photoavoidance of Euglena.