|
Solid state chemistry |
| PB01 |
M. Aniya and S. Ichihara;
Kumamoto University, Japan
Defect interactions and the superionic transition temperature: A comparative study |
| PB02 |
N. Asryan, A. Alykhanyan, G. Nipan and
T. Kolftsova;
Kurnakov Institute of General and Inorganic Chemistry of RAS, Russia
Thermodynamics and phase diagram of the Bi2O3-SnO2 system |
| PB03 |
G. Balducci, S. Brutti, A. Ciccioli, G.
Gigli,
P. Manfrinetti*, A. Palenzona* and L. Kudin**;
Università di Roma gLa Sapienzah, Italy
* Università di Genova, Italy
**Ivanovo State University of Chemical Sciences and Technology, Russia
Thermodynamics of the intermediate phases in the B-Mg system |
| PB04 |
E.M. Fryt;
University of Mining and Metallurgy, Poland
Diffusive properties of TiC at high temperatures |
| PB05 |
H. Fujiwara, Y. Ueda, A. Awasthi*,
N. Krishnamurthy* and S.P. Garg*;
Kyoto University, Japan
*Bhabha Atomic Research Center, India
Thermodynamic study on refractory metal silicides |
| PB06 |
A. Goldgirsh, J.H. Greenberg*, S.
Shusterman,
R. Zilber and M. Azoulay;
Soreq NRC, Israel
*Hebrew University, Israel
Effect of non-stoichiometry on defects in CdTe and CdZnTe |
| PB07 |
A.N. Grundy, B. Hallstedt and L.J.
Gauckler;
Institute of Nonmetallic Materials, ETH Zurich, Switzerland
Thermodynamic modeling of La1-xMn1-yO3-z perovskites |
| PB08 |
H.S. Hong and C.O. Park;
KAIST, Korea
Electronic conduction in sodium ion conducting beta alumina used for potentiometric
CO2 gas sensor |
| PB09 |
K. Iwasaki, H. Yamane*, J. Takahashi*,
S. Kubota*, T. Nagasaki, Y. Arita, M. Shimada* and T. Matsui;
Nagoya University, Japan
*Tohoku University, Japan
Thermoelectric properties of Ca3Co2O6 and
Sr6Co5O15 |
| PB10 |
K. Kakiuchi, N. Itagaki, T. Furuya, Y. Ishii*, S. Suzuki* and M. Yamawaki**;
Nuclear Fuel Industries, LTD, Japan
*Tokyo Electric Power Company, Japan
**The University of Tokyo, Japan
Effect of iron for hydrogen absorption properties of zirconium alloys |
| PB11 |
A.G. Kalampounias and G.N. Papatheodorou;
Foundation for Research and Technology Hellas, Greece
High temperature Raman spectroscopic studies in alkali- and alkaline earth-silicate glasses |
| PB12 |
T.I. Koneshova, A.A. Kapichnikov and
V.M. Novotortsev;
Kurnakov Institute of General and Inorganic Chemistry of RAS, Russia
New ferromagnetic phases in In-Fe-Cr-Te system |
| PB13 |
H. Kawaji, Y. Yokobayashi, T. Tojo, T. Atake, N. Sakai* and H. Yokokawa*;
Tokyo Institute of Technology, Japan
*National Institute of Advanced Industrial Science and Technology, Japan
Heat capacity studies of water/hydrogen solubility in Ce0.8Y0.2O1.9 |
| PB14 |
A. Paul, A.A. Kodentsov and F.J.J. van Loo;
Eindhoven University of Technology, The Netherlands
On manifestation of the Kirkendall effect in solid state reactions |
| PB15 |
A.I. Zaitsev, N.E. Zaitseva and A.A. Kodentsov*;
I.P. Bardin Central Research Institute for Ferrous Metallurgy, Russia
* Eindhoven University of Technology, The Netherlands
Thermodynamic study of stable phases and glassy state in the Ni-P alloys |
| PB16 |
M. Masaki, A. Nakamura, F. Furuuchi* and Y. Hinatsu*
Japan Atomic Energy Research Institute, Japan
* Hokkaido University, Japan
151Eu Moessbauer spectroscopic and X-ray diffraction study of the
Eu2(Ce1-xZrx)2O7 and
LnEuZr2O7 (Ln=lanthanide) systems |
| PB17 |
S. Shioya, T. Matsui, T. Nagasaki and H. Shigematsu*;
Nagoya University, Japan
*Shimane University, Japan
Lithium-isotope effect on ionic conductivity of (La0.55Li0.35)0.95Sr0.05TiO3 |
| PB18 |
K. Mineta and T.H. Okabe;
The University of Tokyo, Japan
Development of a recycling process for tantalum from capacitor scraps |
| PB19 |
T. Bak, M.K. Nowotny, J. Nowotny and
C.C. Sorrell;
The University of New South Wales, Australia
Surface electrical properties of zirconia at elevated temperatures |
| PB20 |
F. Ono, T. Terai, M. Yamawaki, T. Furukawa*, F. Ueno* and K. Aoto*;
The University of Tokyo, Japan
*Japan Nuclear Cycle Development Institute, Japan
Study on synthesis technique and thermochemical properties of NaFeO2 |
| PB21 |
H. Otobe, A. Nakamura, T. Yamashita and K. Minato;
Japan Atomic Energy Research Institute, Japan
Oxygen potentials and defect structure of oxygen-excess pyrochlore Zr2Ce2O7+x |
| PB22 |
Yu. Plevachuk and V. Sklyarchuk;
Ivan Franko National University, Ukraine
Experimental investigation of high temperature metal-to-semiconductor transition in ternary Se-based alloys |
| PB23 |
T. Sawai and A. Hishinuma;
Japan Atomic Energy Research Institute, Japan
Twin intersection in tensile deformed Á- TiAl intermetallic compounds |
| PB24 |
M. Takahashi, Y. Noguchi and M. Miyayama;
The University of Tokyo, Japan
Lattice defects and mixed electrical conduction in bismuth titanate |
| PB25 |
A.I. Zaitsev, N.E. Zaitseva and A.A. Tsaplin;
I.P. Bardin Central Research Institute for Ferrous Metallurgy, Russia
Thermodynamic and amorphysation of the Cu-Zr alloys |
| PB26 |
--- |
| PB27 |
T. Tsuji, Y. Maeda and Y. Yamamura;
Japan Advanced Institute of Science and Technology, Japan
Electrical conductivity of MAl0.97Zn0.03O3-x (Rare earth) |
| PB28 |
D. Ueno, M. Sase, K. Yashiro, A. Kaimai,
Y. Nigara, T. Kawada and J. Mizusaki;
Tohoku University, Japan
Interfacial reaction and electrochemical properties of dense (La,Sr) CoO3-d cathod on YSZ(100) |
| PB29 |
J.H. Wang, Z.G. Zou* and J.H. Ye;
National Institute of Materials Science, Japan
* National Institute of Advanced industrial Science and Technoligy, Japan
Surface modification and photocatalytic activity of distorted pyrochlore-type
Bi2InTaO7 photocatalyst |
| PB30 |
J.H. Wang, M. Takeda, H. Otobe* and
A. Nakamura*;
Toho University, Japan
* Japan Atomic Energy Research Institute, Japan
155Gd Mössbauer spectroscopic study of the Zr1-xGdxO2-x/2 (0<x<1.0) system |
| PB31 |
K. Yoshii, H. Abe*, M. Mizumaki**, A. Nakamura, Y. Shimojo, Y. Ishii, Y. Morii,
K. Kato** and T. Uruga**;
Japan Atomic Energy Research Institute, Japan
* National Institute for Materials Science, Japan
**Japan Synchrotron Radiation Research Center, Japan
X-ray absorption and neutron diffraction studies of silver-lead oxide Ag5Pb2O6 synthesized from fused nitrates |
|
Gas phase Chemistry |
| PB32 |
S. Abramov, Chilingarov, A. Kepman, M. Leskiv and L. Sidorov;
Moscow State University, Russia
Direct mass spectrometric determination of partial pressures of ions in the saturated vapor inside Knudsen cell |
| PB33 |
--- |
| PB34 |
C. Chatillon, F. Defoort* and K. Froment*;
Domaine Universitaire, France
*CEA, SETEX-LTEM, France
Mass spectrometric critical assessment of thermodynamic data for UO3(g) |
| PB35 |
L.N. Gorokhov, A.M. Emelyanov, A.V. Gusarov, E.L. Osina and J.V. Slobodenyuk;
V.P. Glushko Thermocenter of RAS, Russia
Vapor composition and thermodynamics of vaporization of scandium, thulium and samarium triiodides |
| PB36 |
L.N. Gorokhov, E.L. Osina and A.V. Gusarov;
V.P. Glushko Thermocenter of RAS, Russia
Contribution of anharmonic vibrations to the thermodynamic functions of lanthanide halide molecules |
| PB37 |
C. Gindorf, L. Singheiser and K. Hilpert;
Forschungszentrum Jülich, Germany
Vaporization of chromia in humid air |
| PB38 |
T. Hoshino, M. Yasumoto, M. Dokiya*,
Y. Takahashi**, T. Terai and M. Yamawaki;
The University of Tokyo, Japan
*Yokohama National University, Japan
**Chuo University, Japan
Non-stoichiometry and its effect on vaporization properties of Li2TiO3 |
| PB39 |
J.T. Huang, T. Furukawa and K. Aoto;
Japan Nuclear Cycle Development Institute, Japan
High temperature behavior of Na-Fe oxides in H2O+CO2 atmosphere |
| PB40 |
A. Kepman, N. Chilingarov, S. Abramov, A. Borshchevsky, I. Golyshevskiy, J. Rau and L. Sidorov;
Moscow State University, Russia
Mass spectrometric investigation of [60] fullerene fluorination by molecular fluorine in
MnF3 matrix |
| PB41 |
V.V. Klyucharev, A.V. Khachoyan*, I.B. Kudinov** and D.G. Lemesheva**;
Institute of Problems of Chemical Physics of RAS, Russia
* Institute of Structural Macrokinetics and Problems of Materials Science of RAS, Russia
** Institute of General and Inorganic Chemistry of RAS, Russia
Adiabatic chemistry of combustion |
| PB42 |
L.S. Kudin and V.B. Motalov;
Ivanovo State University of Chemical Sciences and Technology, Russia
Mass spectrometric investigation of vaporization thermodynamics of MCl-LnCl3 (M=Cs, Rb; Ln=Ce, Gd) systems |
| PB43 |
S.I. Lopatin and G.A. Semenov;
St. Petersburg State University, Russia
Thermodynamics of the gaseous beryllium oxyacid salts |
| PB44 |
O.A. Louchev, Y. Sato and H. Kanda;
National Institute for Materials Science, Japan
Thermal physics effects in carbon nanotube and fullerene assembly from vapor |
| PB45 |
V.Z. Mordkovich and Y. Takeuchi;
International Center for Materials Research, Japan
The process of laser vaporization of carbon targets |
| PB46 |
T.S. Lakshmi Narasimhan, M. Sai Baba and R. Viswanathan;
Indira Gandhi Center for Atomic Research, India
An unusual type of univariant three-phase vaporisation equilibrium in the ternary system Mn-Te-O |
| PB47 |
M. Sai Baba, S. Nalini and R. Vidhya;
Indira Gandhi Center for Atomic Research, India
Measurement of equilibrium carbon monoxide pressures over Al2O3-C-Al4C3 by transpiration method |
| PB48 |
S.M. Shugurov and S.I. Lopatin;
St. Petersburg State University, Russia
Thermodynamics of gaseous manganese- containing molecules |
| PB49 |
S.M. Shugurov, S.I. Lopatin and G.A. Semenov;
St. Petersburg State University, Russia
Determination of thermochemical properties of some gaseous oxyacid salts with using of double two-temperature cell |
| PB50 |
S.H. Son and F. Tsukihashi;
The University of Tokyo, Japan
Vapor pressure measurement of zinc oxychloride |
| PB51 |
E.K. Kazenas and Yu.V. Tsvetkov;
A.A. Baikov Institute of Metallurgy and Materials Science, Russia
Thermodynamics of oxide evaporation and dissociation |
| PB52 |
G. Balducci, S. Brutti, A. Ciccioli, G. de Maria and G. Gigli;
Universita di Roma "La Sapienza", Italy
Vaporization thermochemistry of praseodymium dicarbide |
|
Lanthanides, Actinides, Nuclear Applications |
| PB53 |
I. Amamoto, T. Terai* H. Obayashi and R. Fujita**;
Japan Nuclear Cycle Development Institute, Japan
*The University of Tokyo, Japan
**Toshiba Corporation, Japan
Fundamental study on separation and recovery technique of uranium from chemical trap fillers |
| PB54 |
M. Aoyama, Y. Miyamoto and O. Suto;
Japan Nuclear Cycle Development Institute, Japan
Development of melt refining decontamination technology for low level radioactive metal wastes contaminated with uranium |
| PB55 |
R. Kandan, R. Babu, K. Nagarajan and
P.R. Vasudeva Rao;
Indira Gandhi Center for Atomic Research, India
Calorimetric measurements on uranium- plutonium mixed oxides |
| PB56 |
M. Joseph, N. Sivakumar and P. Monoravi;
Indira Gandhi Center for Atomic Research, India
Studies on equation of state of high temperature nuclear materials |
| PB57 |
G. Kamei, M.S. Mitsui, K. Futakuchi*, S. Hashimoto* and Y. Sakuramoto*;
Japan Nuclear Cycle Development Institute, Japan
*Dia Consultants Co. Ltd., Japan
Kinetics of Long-term illitization of montmorillonite - A natural analogue of thermal alteration of bentonite in the radioactive waste disposal system - |
| PB58 |
Y. Kang, T. Terai and Y. Yamawaki;
The University of Tokyo, Japan
Physico-chemical and hydrogen isotope transport properties of lithium-tin alloy as the liquid breeder for fusion reactor |
| PB59 |
K. Kinoshita, T. Koyama, T. Inoue, M. Ougier* and J.P. Glatz*;
Central Research Institute of Electric Power Industry, Japan
*Institute for Transuranium Elements, Germany
Separation of actinides from rare earth elements by means of molten salt electrorefining with anodic dissolution of U-Pu-Zr alloy fuel |
| PB60 |
K. Konashi, B.A. Pudjanto*, T. Terai and M. Yamawaki*;
Tohoku University, Japan
* The University of Tokyo, Japan
Thermodynamic stability of ThZr2Hx at high temperature |
| PB61 |
K. Kosugi, M. Fukushima, M. Myochin, K. Mizuguchi* and T. Oomori*;
Japan Nuclear Cycle Development Institute, Japan
*Toshiba Corporation, Japan
Segregation behavior of UO2 and NM elements in oxide-electrowinning reprocessing |
| PB62 |
S. Majumdar, A.K. Sengupta, R.K. Bhagat, V.D. Pandey, G.B. Kale and A. Laik;
Bhabha Atomic Research Centre, India
Out of pile chemical compatibility studies of Pb-Bi eutectic alloy with graphite |
| PB63 |
K. Morimoto, M. Kato, H. Uno*, A. Hanari*, T. Tamura*, H. Sugata*, T. Sunaoshi* and S. Kono;
Japan Nuclear Cycle Development Institute, Japan
*Inspection Development Company, Japan
Preparation and physical properties of ( Pu,U,Np,Am,Simulated FP)O2-x |
| PB64 |
K. Nakajima, Y. Arai and T. Yamashita;
Japan Atomic Energy Research Institute, Japan
Mass-spectrometric study of PuCd2 |
| PB65 |
K. Nakamura, T. Ogata and M. Kurata;
Central Research Institute of Electric Power Industry, Japan
Analysis of metal fuel/cladding chemical interaction during off-normal transient events using phase diagram in the U-Pu-Zr-Fe system |
| PB66 |
H.P. Nawada and K. Fukuda;
International Atomic Energy Agency, Austria
Role of pyro-chemical processes in advanced fuel cycles |
| PB67 |
Y. Nishi, Y. Arita, T. Matsui and T. Nagasaki;
Nagoya University, Japan
Thermoelectric properties of UB4 from 300 to 1100 K |
| PB68 |
E. Walle, P. Perrol* and J. Foct*;
Electricité de France, France
* Université des Sciences et Technologies de Lille, France
Evaluation of the Cs-Mo-I-O and Cs-U-I-O diagrams and determination of iodine and oxygen partial pressures in spent nuclear fuel rods |
| PB69 |
B.A. Pudjanto, K. Konashi*, T. Terai and M. Yamawaki;
The University of Tokyo, Japan
*Tohoku University, Japan
Thermodynamic analysis of Np-Zr-H, Am-Zr-H, Pu-Zr-H systems |
| PB70 |
F. Gnecco, C. Ambrogio, C. Bottino and E. Ricci;
CNR-IENI Department of Genoa, Italy
Verification of the gin-situh protection of steels in contact with the molten Pb-Bi eutectic alloy for an ADS target |
| PB71 |
H.J. Ryu, K.C. Song, J.W. Lee and M.S. Yang;
Korea Atomic Energy Research Institute, Korea
Remote fabrication and irradiation test of recycled nuclear fuel prepared by oxidation and reduction of spent oxide fuel |
| PB72 |
F. Sato, M. Fukushima, M. Myochin, T. Namba, M.V. Kormilitsyn*, V.S. Ishunin*, A.V. Bychkov* and T. Inagaki**;
Japan Nuclear Cycle Development Institute, Japan
*State Scientific Center, Research Institute of Atomic Reactors, Russia
**The Japan Atomic Power Company, Japan
Effect of Ce ions on MOX codeposition in oxide-electrowinning reprocessing |
| PB73 |
A. Sawada, T. Terai, A. Suzuki* and
Y. Yamawaki;
The University of Tokyo, Japan
*National Institute for Fusion Science, Japan
Fabrication of insulator coatings for fusion reactor liquid lithium blankets |
| PB74 |
K. Shimura, K. Yamaguchi*, T. Terai and M. Yamawaki;
The University of Tokyo, Japan
*Japan Atomic Energy Research Institute, Japan
Modeling hydrogen transport through plasma facing materials by use of cellular automaton |
| PB75 |
C. Pujol, A. Caneiro*, J.C. Sabate and J. Spino;
Institute for Transuranium Elements, Germany
*Comisión Nacional de Energia Atómica, Argentina
Preparation, characterization and phase boundaries assessment of simulated UO2-LWR-fuel at burn-up > 200 GWd/tM |
| PB76 |
A. Suzuki, T. Muroga, T. Yoneoka* and S. Tanaka*;
National Institute for Fusion Science, Japan
* The University of Tokyo, Japan
Compatibility of compound oxides with liquid Li for fusion reactor blanket application |
| PB77 |
M. Takai, M. Aoyama, O. Nakazawa and O. Suto;
Japan Nuclear Cycle Development Institute, Japan
Steam reforming: Alternative pyrolytic technology to incineration for volume reduction and stabilization of low-level organic liquid wastes |
| PB78 |
M. Takano, A. Ito, M. Akabori and K. Minato;
Japan Atomic Energy Research Institute, Japan
Hydrolysis reactions of rare-earth and americium mononitrides |
