| No |
Name |
Country |
Title
of paper |
| 1 |
Michel.Allibert |
France |
1.
Thermodynamic analysis of distribution coefficients of
actinides and lanthanides between molten fluorides an
molten alloys
2.
Transfer of micronic metallic particles across the interface
between a molten fluorides and a liquid alloy |
| 2 |
Toshihide.Takenaka |
Japan |
Purification
of magnesium using molten salt |
| 3 |
Sergey
A.Kuznetsov |
Russia |
1.Electrochemical
behavior and electrorefining of chromium in chloride and
chloride-fluoride melts
2.Influence
of the first and second coordination spheres on the electrochemistry
of intervalence charge transfer of couple Eu(Ⅲ)/Eu(II)
3.Electrochemical
synthesis of refractory metal carbides from molten salts |
| 4 |
Young-Joon
Shin |
Korea |
Advanced
Technology on Molten RE Chlorides Salts Manufacturing |
| 5 |
Soo-Haeng
Cho |
Korea |
Corrosion
Behavior of Fe-Cr-Ni Alloys in Lithium Molten Salt |
| 6 |
Seung-Chul
Oh |
Korea |
Phase
diagram for the binary system, YCl3-LiCl |
| 7 |
Michel.Cassir |
France |
Lithidtion
henomenon inn molten carbonate fuel cell |
| 8 |
George.Kaptay |
Hungary |
Electrochemical
synthesis of refractory berides and carbon nanotubes from
molten salts |
| 9 |
Shigefumi.Kuroyama |
Japan |
|
| 10 |
Shigehito.Deki |
Japan |
Physicochemical
properties of inorganic powder/ molten carbonates coexisting
systems II |
| 11 |
Alex.Silany |
Slovakia |
|
| 12 |
Masaru.Aniya |
Japan |
|
| 13 |
George
Papatheodorou |
Greece |
Vibrational
Spectra and Structure of Molten Salts |
| 14 |
Akimasa.
Tasaka |
Japan |
Electrochemical
fluorination of room temperature molten salt |
| 15 |
R.
W. Berg
David
H. Kerridge
|
U.K. |
Use
of the Raman Microscope to elucidate the structure of
solid salt eutectice |
| 16 |
Patricia.Kerridge |
U.K |
|
| 17 |
Pierre.Taxil |
France |
|
| 18 |
Francis.Millot |
France |
|
| 19 |
Vladimir
A.Volkovich |
U.K. |
An
in situ spectroscoy study of reactions of some elements
comprising spent nuclear fuel in moltenchlorides |
| 20 |
Trevor.R.Griffiths |
U.K. |
Destruction
of organic wastes using molten carbonates |
| 21 |
Joschim.E.L.Richter |
Germany |
Diffusion
in Molten Salts |
| 22 |
Larissa.P.Polyakova |
Russia |
Chemical
reactions and cathodic products in fluoride melts containing
tantalum oxcompounds |
| 23 |
Evgueni.G.Polyakov |
Russia |
Electrode
processes and formation of alloy at the electrode position |
| 24 |
I.R.Elizarova |
Russia |
1.Electrode
processes and alloy formation of iron /with gadolinium
in a halide melt
2.Solubility
of gadolinium, neodymium and ittrium oxides in halide
melts |
| 25 |
Catherine.Bessada |
France |
High
temperature NMR in molten salts |
| 26 |
Sergiy.Vasilievich.Volkov |
Ukraine |
Interaction
of Metal with the Salt Melt: on the Theory and Electrochemical
Engineering |
| 27 |
K.Hilpert |
Germany |
Corrosion
in Metal Halide Lamps |
| 28 |
Zehra.Akdeniz |
Turkey |
The
refined ionic potential models for lanthanide and actinide
chlorides |
| 29 |
Ashok.Adya |
U.K. |
The
structure of molten lanthanide and actinide chlorides |
| 30 |
W.Freyland |
Germany |
Metal-Molten
Salt Interfaces and
Electro-crystallization on the Nanometer Scale
|
| 31 |
Qiao
Zhiyu |
China |
Surface
tension of Rare Earth Containing molten mixtures |
| 32 |
Xindong
Wang |
China |
|
| 33 |
Shuzhen
Duan |
China |
|
| 34 |
Huimin
Lu |
China |
|
| 35 |
Xianran
Xing |
China |
Re-determination
of the phase diagram of the system DyCl3-KCl |
| 36 |
Minshou
Zhao |
China |
Noval
anode material for molten carbonate fuel cell |
| 37 |
Xie
Zhong |
China |
Physical
and electrochemical surface characteristics of Tb oxide
electrode in chloride smelts at 700、 |
| 38 |
Yang
Qiqin |
China |
Electrochemistry
of deposition of rare earth metals and their alloys in
molten salts: An overview of molten -salt studies at Zhongshan
University |
| 39 |
Xu
Qian |
China |
Calculation
of thermodynamic properties of LiF-AlF3,NaF-AlF3,and
KF-AlF3 |
| 40 |
Harald
A. Øye |
Norway |
Chemical
Reactions and Physical Changes of the Cathode During
Aluminium Electrolysis. Laboratory and Industrial Studies
|
| 41 |
Popescu.Ana-mariajulieta |
Romania
|
Structure
and corrosion of SnO2-based inert anodes in
aluminium electrolysis |
| 42 |
Constantin.Virgilcornel |
Romania |
Electrochemical
studies of
cerium in molten LiF-NaF |
| 43 |
Makoto.Kawase |
Japan |
Active
reaction point of cathode in molten carbonate fuel cell
|
| 44 |
Takuya
Goto |
Japan |
Formation
of III-V nitrides by molten salt electrochemical process
|
| 45 |
Toshiyuki
NOHIRA |
Japan |
Synthesis
of Monosilane by Molten Salt Electrochemical Process |
| 46 |
Yoshiharu
Sakamura |
Japan |
Chlorination
of Uranium and Rare-Earth Oxides by Use of ZrCl4
|
| 47 |
Masatoshi
Iizuka |
Japan |
Electrochemical
Behavior of Zirconium in molten LiCl-KCl.
|
| 48 |
Rika
Hagiwara |
Japan |
A
highly conductive RTMS;EMIF.nHF |
| 49 |
Yoshikazu
Kaneko |
Japan |
Electrochemical
Synthesis of Chromogenic RE Doped Vanadium Oxide Films
in Molten Salt
|
| 50 |
Yasushi
Katayama |
Japan |
Electrochemical
behavvior of ferrocene in some hydrophobic room temperature
molten salt systems |
| 51 |
Shigenori
Mitsushima |
Japan |
Stability
of materials for molten carbonate fuel cells |
| 52 |
Alena
V. Novosielova |
Russia |
Thermodynamic
stability of samarium and europium trichlorides in molten
alkali chlorides |
| 53 |
Alexander
A. Red'kin |
Russia |
Investigation
of metal solubility in molten salts by the electrical
conductivity measurements |
| 54 |
Olga
Tkatcheva |
Russia |
Electrical
Conductivity of Molten TbCl3-Tb Mixtures |
| 55 |
Vladimir
A. Khokhlov |
Russia |
Physicochemical
Diagnostics and Structure of Molten Salt Electrolytes
|
| 56 |
V.I.
Minchenko |
Russia |
Ultrasonic
velocity, heat capacity and internal pressure of the LaCl3+LiCl
and LaCl3+RbCl melts |
| 57 |
Akihiko
Kajinami |
Japan |
Structural
analysis of hydrous sodium carboxylate melt by high-energy
X-ray diffraction measurement |
| 58 |
Pavel.Fellner |
Slovakia |
Contents
of alkali and earth alkaline metals in the aluminium cathode
in aluminium electrolysis |
| 59 |
Frederic
Lantelme |
France |
Electrodeposition
of rare earths and alloys in fused salts |
| 60 |
Rong
Chen |
China |
|
| 61 |
Yanqing
Lai |
China |
Determination
of ohmic potential drop and factors affecting anodic over-potential
of carbon anodes in cryolite-alumina melts |
| 62 |
Yexiang
Liu
Jomar.T.Thonstad
|
China
Norway
|
On
the electrocatalysis of the carbon auode in aluminium
electrolysis |
| 63 |
Yuzuru
SATO,Tsutomu YAMAMURA |
Japan |
Viscosity
and its temperature dependence of molten semiconductors |
| 64 |
Yimin
Ding |
China |
On
the relationship beteen atomic structure and melting points
of halides oxides of metallic elements |
| 65 |
Niels
J. Bjerrum |
Denmark |
Oxidation
of methane in oleum at elevated temperatures |
| 66 |
Nanyi
Chen |
China |
Computerized
prediction of thermodynaic properties and intelligent
data base of phase diagrams for molten salt systems |
| 67 |
Henri.Groult |
France |
Fluorine
evolution at a carbon electrode, mechanism and interfacial
structure |
| 68 |
Isao
OKADA |
Japan |
MD
simulation of crystal growth from MgO melt |
| 69 |
Reiko
Notoya |
Japan |
The
electron donor acceptor approach to physical properties
of molten salts |
| 70 |
Masazumi
OKIDO |
Japan |
Electrodeposition
of compound semiconductor film, ZnTe, in molten chloride |
| 71 |
Yimin
Sun |
China |
Optimization
and Calculation of the CeCl3-MCI (M=Li, Na, K, Rb, Cs)
Phase Diagrams |
| 72 |
Hongmin
Zhu
Donald
R. Sadoway
|
China
USA
|
Anode
reactions during electrolytic production of aluminum |
| 73 |
S.B.Rasmussen |
Denmark |
DeNOX
and DeSOX Catalysts - Structure, Properties and Deactivation |
| 74 |
Lixiu
Yao |
China |
Data
Mining Applied to the Prediction of Heat of Mixing of
Molten Salt Solutions |
| 75 |
Wencong
Lu |
China |
Regularities
of formation of extended solid solutions of some salt
systems consisting of salts of different valence types
|
| 76 |
V.Ya.
Kudyakov |
Russia |
Corrosion
of metallic materials in molten alkaline halogenides and
carbonates |
| 77 |
Morio
Matsunaga |
Japan |
ELECTRODEPOSITION
OF TANTALUM FROM A NOVEL LOW TEMPERATURE MOLTEN SALT |
| 78 |
Yoshio
Nakamura |
Japan |
Precipitation
of Bi and Bi sulfide in borate glasses |
| 79 |
Hou
Huaiyu |
China |
Raman
spectroscopic study of solid and molten carbonates |
| 80 |
You
Jingling |
China |
High
temperature Raman spectroscopic study of the structure
of crystal >and melt of -BBO |
| 81 |
Wu
Yongquan |
China |
The
polarization effects on the structrues of the melts MCl2
: Molecular >dynamaics simulation study |
| 82 |
SUI
Sheng, ZHU Xinjian, CAO Guangyi |
China |
Performance
analysis for molten carbonate fuel cell stacks |
| 83 |
Shukuji
ASAKURA |
Japan |
DECOMPOSITION
OF ORGANIC COMPOUNDS BY MOLTEN SALTS |
| 84 |
Toshihiro
TANAKA Shigeta HARA |
Japan |
Evaluation
of Interfacial Tension between Liquid Steel and Molten
Slag |
| 85 |
Zongyu
ZHENG, |
Japan |
Effect
of Fluoride Addition on the Electrolysis of DyCl3, NdCl3
and SmCl3 in Molten Chloride Bath. |
| 86 |
Akira
Katagiri |
Japan |
Electrodeposition
and Anodic Dissolution of Tungsten in ZnCl2-NaCl Melts |
| 87 |
Haruaki
MATSUURA |
Japan |
REPROCESSING
OF IONIC MELT BATH CONTAINING HIGH-LEVEL RADIOACTIVE WASTES
BY COUNTERCURRENT ELECTROMIGRATION |
| 88 |
Q.
Yu*, K. Kihara, Y. Hisamitsu, T. Kudo, M. Mohamedi, T.
Itoh, M. Umeda, I. Uchida and J. R. Selman |
Japan |
Solubility
of NiO as Cathode Materials for MCFC in Alkali Carbonate
Melts |
| 89 |
Y.S.
Fung and D.R. Zhu |
China(Hong Kong)
|
Anode
Materials for Lithium Battery in the Room Temperature
Molten Salts Electrolyte |
| 90 |
Y.
Osteryoung |
USA |
Room-Temperature
Molten Salts-Present & Future |
| 91 |
Sheng
Dai |
USA |
Ionic
Liquids for Molecular Recognization & Advanced Material
Syntheses |
| 92 |
Hideo
Tamamura |
Japan |
Industrial
Molten Saly Electrolysis of Lanthanoid Metal Alloys for
Magnetic Functional materials |
| 93 |
M.
Gaune-Escard |
France |
Molten
Salts & Recent Development in Nuclear application |
| 94 |
Cao
Zhanmin, Qiao Zhiyu |
China |
The
Microstructure Study of Flash Smelting Slag |
| 95 |
C.Bessada
E.M.Anghel2
|
France
Romania
|
Nuclear
Magnetic Resonance studies of the Na2B4O7-Na3AlF6-TiO2
system |
| 96 |
P.
M.Pavel and M. Constantinescu |
Romania |
Heat
transfer mathematical model for a thermal insulation with
PCM |
| 97 |
C.Bessada*,
M.Constantinescu, E.M.Anghel, P.Echegut* and M.Olteanu |
France*
Romania
|
INFLUENCE
OF PbO CONTENT ON THE PHYSICO-CHEMICAL PROPERTIES OF SOME
OXIDIC GLASSES THAT REPRODUCE INDUSTRIAL WASTES |
| 98 |
Gaune-Escard
M., Rycerz R., Potapov A. |
Russia |
Electrical
conductance of molten MCl - SmCl3 mixtures (M = Li, Na,
Rb, Cs) |
| 99 |
Potapov
A. and Salulev A. |
Russia |
f
- d transitions in TbCl3 and CeCl3 electronic spectra |
| 100 |
Potapov
A. |
Russia |
Approximate calculation of density of alkali and rare
earth chlorides molten mixtures |
| 101 |
Da-jian
WANG |
China |
Nonhomogeneous
molten salt electrolysis of lead sulfide particle |
| 102 |
Ling
Zhang and Sharif Jahanshahi |
Australia |
Development
of Structurally Related Viscosity Model for Silicate Melts |
| 103 |
M.
Somerville, L. Zhang and S. Jahanshahi |
Australia |
Thermodynamic
investigations into low temperature electrolytes |
| 104 |
S.
Sun and S. Jahanshahi |
Australia |
Oxygen
transport in iron oxide-containing melts and the role
of electronic conduction |
