for ceramic research and development in China. Also, this is the only time I could afford to make the visit. I found it most educational ! Probably the...JAPANESE PARTICIPANTS T6shio Tanimoto Nobutatsu Yamaoka Department of Materials Sience Taiyo Yuden Co. Ltd. and Ceramic Technology 43-1 Yahatabara-cho
Sata, Akiyoshi; Sakai, Takako; Goto, Yusuke; Hayakawa, Katumitu; Ohta, Toshiyuki
We have developed a new hybrid ceramic material 'Taiyo' as a water processing catalyst. The porous ceramic has a core-shell structure. It decolorized completely the dye solutions as well as the wastewater output after primary water processing by microorganism in a pig farm. This new material showed the acceleration of water purification by applying electric voltage. The degradation of dyes and pig urine output from the primary treatments was accelerated by applying voltage. Nitrate in underground water was also decomposed only by applying voltage, while it was not decomposed without voltage.
Yoshimura, Kazuyoshi; Ohta, Hiroto; Murase, Masatoshi; Nishimura, Kazuo
(Institute for Complex and Adaptive Matter, USA), Yukawa Institute for Theoretical Physics (Kyoto University), Institute of Economic Research (Kyoto University) and Kyoto University GCOEs (Global Centers Of Excellence: Physics, Chemistry, and Economics). The workshop was also supported by Niki Glass Company Ltd., THAMWAY Corp., TAIYO NIPPON SANSO, and Quantum Design Japan. The Editors and the Organizing Committee, Masatoshi Murase Kyoto University, Japan Kazuo Nishimura Kyoto University, Japan Kazuyoshi Yoshimura Kyoto University, Japan: Conference Chairman and Chief Editor Hiroto Ohta Kyoto University, Tokyo University of A&T, Japan: Conference Secretary Conference Photograph, 14 October 2010 Conference Photograph Conference Poster Conference Poster
Yokozawa, Takako; Kim, Hyun Young; Kim, Hyun Ju; Tanaka, Takashi; Sugino, Hidetoshi; Okubo, Tsutomu; Chu, Djong-Chi; Juneja, Lekh Raj
To investigate the effects of amla on renal dysfunction involved in oxidative stress during the aging process, we employed young (2 months old) and aged (13 months old) male rats and administered SunAmla (Taiyo Kagaku Co., Ltd., Japan) or an ethyl acetate (EtOAc) extract of amla, a polyphenol-rich fraction, at a dose of 40 or 10 mg/kg body weight/day for 100 days. The administration of SunAmla or EtOAc extract of amla reduced the elevated levels of serum creatinine and urea nitrogen in the aged rats. In addition, the tail arterial blood pressure was markedly elevated in aged control rats as compared with young rats, while the systolic blood pressure was significantly decreased by the administration of SunAmla or EtOAc extract of amla. Furthermore, the oral administration of SunAmla or EtOAc extract of amla significantly reduced thiobarbituric acid-reactive substance levels of serum, renal homogenate, and mitochondria in aged rats, suggesting that amla would ameliorate oxidative stress under aging. The increases of inducible nitric oxide synthase (iNOS) and cyclooxygenase (COX)-2 expression in the aorta of aging rats were also significantly suppressed by SunAmla extract or EtOAc extract of amla, respectively. Moreover, the elevated expression level of bax, a proapoptotic protein, was significantly decreased after oral administration of SunAmla or EtOAc extract of amla. However, the level of bcl-2, an antiapoptotic protein, did not show any difference among the groups. The expressions of renal nuclear factor-kappaB (NF-kappaB), inhibitory kappaB in cytoplasm, iNOS, and COX-2 protein levels were also increased with aging. However, SunAmla or EtOAc extract of amla reduced the iNOS and COX-2 expression levels by inhibiting NF-kappaB activation in the aged rats. These results indicate that amla would be a very useful antioxidant for the prevention of age-related renal disease.
Ezquer, R. G.; Mosert, M.; Radicella, S. M.; Cabrera, M. A.
This paper reviews and extends studies of the ability of the International Reference Ionosphere (IRI) to make predictions of the topside electron density (N) and the total electron content for low latitude locations. Members of the Argentine scientific community have performed the reported studies. Topside Profile: Measurements of N obtained with the Hinotori and Taiyo satellites were used to check the ability of the IRI to predict monthly average value of N at 600 km of altitude (N 600) in the low latitude region and, also, that corresponding to a particular day and time so-called "instanteneous N value". The comparison showed that the best agreement between IRI derived average N 600 values and measurements was obtained for a station near the magnetic equator and, in general, for the period of minimum ionisation for stations not near the magnetic equator. When ground ionosonde data obtained at Tucumán (26.9° S, 294.6°E; mag. latitude:-15.5) and Huancayo (12.0° S, 284.7° E; mag. latitude:-0.7) were used as input to the model the predicted instantaneous N 600 values were better than those obtained using either the CCIR or URSI options. Additional studies, covering different heights in the F region at low latitudes for low solar activity, showed that the IRI gives better N predictions than those obtained for high solar activity. Electron Content: Measurements of vertical total electron content (VTEC) over Tucumán, Havana (23.1° N, 277.5° E, mag. latitude: 34.2) and Arequipa (16.5° S, 289.0° E; geoma. Lat.:-5.1) obtained from geosynchronous and GPS satellites signals during high solar activity periods, have been used to study the IRI performance as predictor of TEC. Both versions, IRI-90 and IRI-95, overestimate VTEC at the southern crest of the equatorial anomaly for hours around the daily minimum, and underestimate it the rest of the day. This suggests that the main reason for the disagreement is the shape of the N profile assumed by the model. Good
Takahashi, Migaku; Saito, Hitoshi; Yoshimura, Satoru; Takanashi, Koki; Sahashi, Masashi; Tsunoda, Masakiyo
IgarashiHitachi, CRL, JapanK TajimaAkita Univ., Japan H ItoKansai Univ., JapanM TakedaJAEA, Japan H IwasakiToshiba, JapanY TakemuraYokohama Nat'l Univ., Japan H KatoYamagata Univ., JapanM TanakaUniv. of Tokyo, Japan M KonotoAIST, JapanA TsukamotoNihon Univ., Japan H KubotaAIST, JapanS YabukamiTohoku Gakuin Univ., Japan Treasury Committee of ISAMMA 2010 M SahashiTohoku Univ., Japan, ChairS SaitoTohoku Univ., Japan K IshiyamaTohoku Univ., JapanT TanakaEhime Univ., Japan K NakagawaNihon Univ., JapanN TezukaTohoku Univ., Japan T OgawaTohoku Univ., Japan Executive Committee of ISAMMA 2010 M TakahashiTohoku Univ., Japan, ChairS SaitoTohoku Univ., Japan K TakanashiTohoku Univ., Japan, Vice-chairY SakurabaTohoku Univ., Japan K MiyakeTohoku Univ., JapanT ShimaTohoku Gakuin Univ., Japan T OgawaTohoku Univ., JapanN TezukaTohoku Univ., Japan S OkamotoTohoku Univ., JapanM TsunodaTohoku Univ., Japan M OoganeTohoku Univ., Japan We are grateful to all the participants for their valuable contributions and active discussions. We gratefully acknowledge the financial support from 17 Japanese companies (ASAKA RIKEN CO., LTD, Fujikin Incorporated, Furukawa Electric Co., Ltd, Hitachi Metals, Ltd, IZUMI-TEC CO., LTD, Miwa Electric Industrial CO., LTD, MIWA MFG CO., LTD, NEOARK Corporation, Optima Corporation, PRESTO CO., LTD, SHOWA DENKO K.K., TAIYO YUDEN CO., LTD, TDK Corporation, TEIJIN LIMITED, Ube Material Industries, Ltd, ULVAC, Inc, and V TEX Corporation) and 7 foundations (SENDAI TOURISM & CONVENTION BUREAU, The Iwatani Naoji Foundation, Tohoku University Electro-Related Departments Global COE Program 'Center of Education and Research for Information Electronics Systems', The Murata Science Foundation, Research Foundation for Materials Science, Nippon Sheet Glass Foundation for Materials Science and Engineering, and Aoba Foundation for The Promotion of Engineering).