| 1 - 6 |
Electronic-Structure and Transport-Properties of Aucl3-Gic
Ishii T, Komatsu Y, Suzuki K, Enoki T, Ugawa A, Yakushi K, Bandow S |
| 1 - 12 |
New Directions in Intercalation Research
Dresselhaus MS, Dresselhaus G |
| 7 - 12 |
Electronic-Structures of Sodium-Hydride-Graphite Intercalation Compounds
Enoki T, Sakamoto N, Nakazawa K, Suzuki K, Sugihara K, Kobayashi K |
| 11 - 11 |
Proceedings of the 7th International-Symposium on Intercalation Compounds - Louvain-La-Neuve, Belgium, May 10-14, 1993 .1. Foreword
Issi JP, Flandrois S, Beguin F |
| 13 - 18 |
Theoretical and Experimental Investigation of Electronic-Structure of High-Pressure Phases of Li Intercalated Graphite
Rabii S, Holzwarth N, Li GY, Moscovici J, Loupias G, Guerard D, Nalimova V |
| 13 - 28 |
Aspects of Intercalation of Fluorine and Metal Fluorides into Graphite
Tressaud A |
| 19 - 24 |
Puzzling Facts in Alkali Gic
Lauginie P, Conard J |
| 25 - 30 |
NMR-Study of Licx Graphite-Intercalation Compounds Prepared Under High-Pressure
Conard J, Nalimova VA, Guerard D |
| 29 - 34 |
A New Graphite-Intercalation Compound Containing Sodium Associated with Oxygen
Elgadi M, Herold A, Herold C, Lagrange P, Lelaurain M, Mareche JF |
| 31 - 36 |
Shubnikov-de Haas Effect in Low Stage Acceptor Type Graphite-Intercalation Compounds
Kulbachinskii VA, Ionov SG, Lapin SA, Avdeev VV, Kamenskaya EA, Devisser A |
| 35 - 40 |
Alkali-Metal Reaction with Cucl2 Intercalated Graphite
Sokolova TY, Nalimova VA, Fateev OV, Avdeev VV, Semenenko KN, Guerard D |
| 37 - 42 |
Cointercalation of Fe and Co Atoms into Tis2 Layers
Inoue M, Koyano M, Negishi H, Sasaki M |
| 41 - 46 |
Kc4, a New Graphite-Intercalation Compound
Herold C, Elgadi M, Mareche JF, Lagrange P |
| 43 - 48 |
Electronic-Structures of Incommensurate Layered Compounds (MS)(X)TaS2 (M=rare Earths,Pb,Sn)
Suzuki K, Kondo T, Enoki T, Tajima H |
| 47 - 52 |
Reaction of Ammonia with Graphite Potassium Compounds
Reghai L, Fuzellier H |
| 49 - 54 |
Influence of Intercalation on the Electrophysical Properties of Layered Semiconductors Bi2Te3 and InSe
Kulbachinskii VA, Kovalyuk MZ, Pyrlya MN |
| 53 - 58 |
Experimental-Study of a New Uranyl Sulfate Gic
Moissette A, Fuzellier H, Dubessy J, Burneau A, Lelaurain M |
| 55 - 60 |
Transport-Properties of a Graphitized Polyimide Film and Its Stage-2 FeCl4- Intercalation Compound
Nysten B, Issi JP, Shioyama H, Crespin M, Setton R, Beguin F |
| 59 - 64 |
Preparation of K-Bi-Graphite Under Nitrogen
Kalucki K, Morawski AW |
| 61 - 66 |
On the Relevance of Certain Transport Structure Correlations in Sbcl5-Intercalated Graphite to Our Overall Understanding of Gic C-Axis Conductivity
Mcrae E, Lelaurain M, Mareche JF, Andersson OE, Sundqvist B |
| 65 - 70 |
Study of the Cointercalation of Magnesium and Cobalt Chlorides into Graphite
Moundangainiamy M, Touzain P |
| 67 - 74 |
Anomalous Transport-Properties of Graphite CoCl2
Piraux L |
| 71 - 76 |
Bismuth(III) Chloride Graphite-Intercalation Compounds - Preparation and Characterization of the First Stage Compound
Schulz F, Lochte K, Froba M, Metz W |
| 75 - 80 |
Electrical-Transport in Metal (M=cu, Cd, Pd) Chloroaluminate Intercalated Graphite
Polo V, Lelaurain M, Vangelisti R, Mcrae E |
| 77 - 88 |
Expanding the Realm of Intercalation Chemistry - The Synthesis of Graphite and Metal Dichalcogenide Intercalates Containing Aromatic-Hydrocarbons and Buckminsterfullerene, and the First Intercalates of Layered Metal-Halides
Averill BA, Sutto TE, Fabre JM |
| 81 - 92 |
Magnetic-Properties of Random-Mixture Graphite-Intercalation Compounds
Suzuki M, Suzuki IS, Burr CR |
| 89 - 94 |
Criteria for the Intercalation of Sulfuric-Acid
Inagaki M, Iwashita N, Hishiyama Y |
| 93 - 98 |
Magnetic-Properties of Graphite Biintercalation Compounds
Suzuki M, Suzuki IS, Vartuli C, Burr CR, Maruyama Y |
| 95 - 100 |
New Data Concerning the Graphite Cual2Cl8 Compound (Stage-1)
Polo V, Vangelisti R |
| 99 - 104 |
Percolation Behavior in Cocmg1-Ccl2 and Stage-2 Cocmg1-Ccl2 Graphite-Intercalation Compounds
Suzuki IS, Hsieh CJ, Khemai F, Burr CR, Suzuki M, Maruyama Y |
| 101 - 106 |
Formation and Structure of Ternary Graphite-Intercalation Compounds with 2 Metal Chlorides
Inagaki M, Ohira M |
| 105 - 110 |
Magnetic Order in a Biintercalation Compound, Graphite Crcl3-CoCl2
Flandrois S, Biensan P, Louis JM, Chouteau G, Roisnel T, Andre G, Bouree F |
| 107 - 113 |
Direct Oxidative Conversion of Graphite into Exfoliated Graphites - The Kinetic-Model, Products, Mechanism
Lyubchik SB, Kucherenko VA, Yaroshenko AP |
| 111 - 115 |
Magnetic-Properties of Metal-Halides Graphite-Intercalation Compounds Under Pressure
Gonzalez O, Chehab S, Flandrois S |
| 115 - 120 |
Calorimetric and Potentiometry Investigations of the Acceptor Compounds Intercalations into Graphite
Avdeev VV, Monyakina LA, Nikolskaya IV, Ionov SG |
| 117 - 122 |
Magnetism in Incommensurate Layer Compounds (RES)(X)Vs2 (Re=rare-Earths)
Kondo T, Suzuki K, Enoki T, Bandow S |
| 121 - 126 |
Intercalation of Alkali-Metal Ions into Layered Vopo4.2H2O
Zima V, Benes L, Votinsky J, Kalousova J |
| 123 - 128 |
C-13 NMR Orbital Shift Calculation in Graphite-Intercalation Compounds
Saintjean M, Fretigny C, Quinton MF |
| 127 - 133 |
Synthesis and Structure of Litizrx(4) (X=s, Se, Te) Layered Compounds
Cybulski ZA |
| 129 - 134 |
2D Characterization of Gics
Lang L, Doyenlang S, Charlier A, Charlier MF |
| 135 - 142 |
Anionic Intercalation in La2CuO4 Oxide by Fluorine or Chlorine Treatment
Chevalier B, Tressaud A, Brisson C, Dance JM, Etourneau J, Tuilier MH, Soubeyroux JL, Cassart M, Issi JP |
| 135 - 140 |
Ab-Initio Structure of Graphite Monofluoride (Cf)(N)
Charlier JC, Gonze X, Michenaud JP |
| 141 - 146 |
Structure, Melting and Dynamics of Screened Coulomb-Systems in 2D - Role of Substrate Corrugation
Mahanti SD, Seong H, Sen S, Cagin T |
| 143 - 148 |
The Synthesis, Structure and Intercalation Properties of Fluormica Clays
Solin SA, Hines D, Haushalter R |
| 147 - 152 |
Monte-Carlo Simulation on Short to Long-Range Ordering in Lixtise2
Deniard P, Suchaud M, Chabre Y, Brec R, Rouxel J |
| 149 - 154 |
Incorporating SnO2.xH2O into the Interlayer Spacings of Montmorillonite
Kiricsi I, Palinko I, Tasi G, Hannus I |
| 153 - 158 |
Sodium Reactivity with Anthracitic Carbons at 700-Degrees-C
Sechet C, Sarmeo D, Mermoux M, Touzain P, Bonnetain L, Dumas D, Allard B, Paulus R |
| 155 - 160 |
Synthesis and Structural Characterization of LDH-Organic Intercalates
Kagunya W, Chibwe M, Jones W |
| 159 - 164 |
Electrochemical Intercalation of Lithium into Carbon Materials
Billaud D, Henry F, Willmann P |
| 161 - 166 |
(Cu-Cr) Layered Double Hydroxides Pillared by CrO4(2-) and Cr2O7(2-) Oxometalates
Depege C, Forano C, Deroy A, Besse JP |
| 165 - 170 |
The Carbon-Lithium Negative Electrode - Effects of the Carbon Origin and of the Electrolyte
Yazami R, Zaghib K, Deschamps M |
| 167 - 172 |
Effect of Intermediates on the Nature of Polyvanadate-Intercalated Layered Double Hydroxides
Ulibarri MA, Labajos FM, Rives V, Kagunya W, Jones W, Trujillano R |
| 171 - 176 |
Lithium Secondary Battery Based on Intercalation in Carbon-Fibers as Negative Electrode
Endo M, Nakamura JI, Emori A, Sasabe Y, Takeuchi K |
| 173 - 178 |
Intercalation of Hydrazine and Amines in Antimony Phosphate
Saadaoui H, Boukhari A, Flandrois S, Aride J |
| 177 - 182 |
Graphite-Intercalation Compounds as Positives in Rechargeable Metalfree Batteries
Beck F, Boinowitz T, Krohn H, Tormin U, Ther E |
| 179 - 184 |
Ambient-Temperature Intercalation of Na and in into TaS2
Olberding W, Ganal P, Ouvrard G, Butz T |
| 183 - 188 |
Alkane Activation by Copper-II Tetrachloroaluminate Intercalated in Graphite
Vangelisti R, Polo V, Bukala J, Sommer J |
| 185 - 190 |
Intercalation of Trifluoroacetic-Acid in Graphite
Fuzellier H |
| 189 - 194 |
The Structure of Transition-Metal Graphite Compounds - Iron-Graphite and Ruthenium-Graphite
Herein D, Braun T, Schlogl R |
| 191 - 196 |
Electrochemical Preparation of Lanthanide-Ammonia Graphite-Intercalation Compounds in Liquid-Ammonia
Alheid H, Schwarz M, Stumpp E |
| 195 - 200 |
Metal Graphite-Intercalation Compounds as New Dehydrogenation Catalysts
Klimkiewicz R, Morawski AW |
| 197 - 202 |
Electrochemical-Behavior of Copper Chloride Gic
Scharff P, Opitz R |
| 201 - 206 |
Oligomerization of the Organic Layer in the System Graphite-Cs-Ethylene
Pilliere H, Takahashi Y, Yoneoka T, Otosaka T, Akuzawa N |
| 203 - 208 |
Electrochemical Reduction of Graphite and Fullerenes from Solid Lithium Salt Polymer Electrolytes
Lemont S, Ghanbaja J, Billaud D |
| 207 - 212 |
Application of Metal Nitrate Gic as Nitration Reagent for Aromatic-Compounds
Stumpp E, Ebinal S |
| 209 - 214 |
The Electrochemical-Behavior of Fullerenes in Liquid Electrolyte
Yazami R, Cherigui A |
| 213 - 218 |
New Data on Graphite-Intercalation Compounds Containing HClO4 - Synthesis and Exfoliation
Petitjean D, Furdin G, Herold A, Pavlovsky ND |
| 215 - 220 |
Reduction of the 2nd Stage FeCl4- and Fecl3 Graphite-Intercalation Compounds
Crespin M, Tatsumi K, Shioyama H, Bonnin D, Beguin F |
| 219 - 223 |
A New Variety of Natural Graphite Powder - Elaboration and Properties
Furdin G, Mareche JF, Mabchour A, Herold A |
| 221 - 226 |
Electrochemical Redox Capacity of Thermally Exfoliated Graphite in Sulfuric-Acid
Frackowiak E, Kaiser W, Krohn H, Beck F |
| 225 - 230 |
Novel Host Material for Graphite-Intercalation Compound - High-Quality Graphite Film Prepared from Newly Developed Polyimide Film
Hishiyama Y, Kaburagi Y, Nakamura M, Nagata Y, Inagaki M |
| 227 - 232 |
Electrochemical Exfoliation of Graphite in Trifluoroacetic Media
Bourelle E, Douglade J, Metrot A |
| 231 - 236 |
Reaction of Metal Chloride Graphite-Intercalation Compounds with Ammonia
Touzain P, Elatifi A, Moundangainiamy M |
| 233 - 238 |
Electrochemical and Neutron-Diffraction Study of a Prelithiated Hollandite-Type Lixmno2 Phase
Botkovitz P, Brec R, Deniard P, Tournoux M, Burr G |
| 237 - 242 |
Reaction of Metal Chloride Graphite-Intercalation Compounds with Ammonia
Stumpp E, Ehrhardt C |
| 239 - 244 |
XAs and XRD Studies on Graphite-Intercalation Compounds of Re2O7
Froba M, Lochte K, Metz W |
| 243 - 248 |
Thermochemical Heat Transformation - Study of the Ammonia/Magnesium Chloride Gic Pair in a Laboratory Pilot
Touzain P, Moundangainiamy M |
| 245 - 250 |
XAs and XRD Studies on Graphite-Intercalation Compounds of H2Ptcl6
Lochte K, Froba M, Schulz F, Metz W |
| 249 - 254 |
Nanoscale Composites Formed by Encapsulation of Polymers in MoS2 - From Conjugated Polymers to Plastics - Detection of Metal to Insulator Transition
Bissessur R, Schindler JL, Kannewurf CR, Kanatzidis M |
| 251 - 256 |
Structure Refinement of Gics Using Ool Reflections and Applying the New Lorentz Factor
Ressler T, Froba M, Metz W |
| 255 - 260 |
Tantalum Pillared Montmorillonite - A New Family of Bidimensional Microporous Catalysts
Guiu G, Grange P |
| 257 - 262 |
Numerical Computation of Gic Ool Reflections Considering Slight Stage Disorder
Ressler T, Froba M, Metz W |
| 261 - 270 |
Disorder in C-60 Intercalation Compounds and Implications for Superconductivity
Fischer JE |
| 263 - 268 |
Crystalline-Structure of Li-Graphite and Cs-Graphite Superdense Phases
Guerard D, Nalimova VA |
| 269 - 274 |
Neutron-Diffraction and Nuclear-Resonance Photon Scattering Study of the C24K+n2 System
Moreh R, Pinto H, Melamud M, Shaked H |
| 271 - 275 |
C-13 NMR Investigations of Fullerene Black
Kanowski M, Buntkowsky G, Werner H, Wohlers M, Schlogl R, Vieth HM, Luders K |
| 275 - 280 |
Reduction of Cucl2 Intercalated Graphite by Heavy Alkali-Metal Vapor
Mareche JF, Herold C, Furdin G, Hubert N |
| 277 - 282 |
Elastic Properties of Fullerenes
Hucho C, Kraus M, Maurer D, Muller V, Werner H, Wohlers M, Schlogl R |
| 281 - 286 |
Recent Data Concerning the Intercalation of Thallium Alloys into Graphite
Outti B, Clement J, Herold C, Lagrange P |
| 283 - 288 |
Scanning-Tunneling-Microscopy Study of Fullerene Thin-Films on Au(III)
Lang HP, Thommengeiser V, Guntherodt HJ |
| 287 - 292 |
Raman and ESR Measurements in Stage-I AlCl3 Graphite
Sanjurjo JA, Pires MA, Barberis GE, Rettori C, Yacoby Y |
| 289 - 294 |
Scanning-Tunneling-Microscopy Study of Granular Intercalated Fullerenes
Lang HP, Thommengeiser V, Luders K, Kraus M, Baenitz M, Guntherodt HJ |
| 293 - 298 |
Structural Studies on Metal Bromide Graphite-Intercalation Compounds
Kaiser V, Stumpp E, Tanneberg B |
| 295 - 300 |
Synthesis and Characterization of Transition-Metal Fullerides
Werner H, Wohlers M, Belz T, Schlogl R |
| 299 - 305 |
Inplane Phonon Density-of-States of Li-Graphite Intercalation Compounds
Schirmer A, Fischer JE, Heitjans P, Kim HJ, Magerl A, Vaknin D, Zabel H |
| 301 - 306 |
C-60 Compounds with Acceptors
Hamwi A, Dondainas G, Dupuis J |
| 307 - 312 |
Electrochemical Spectroscopy and Structural Study of the Na-C-60 System
Chabre Y, Djurado D, Barral M |
| 307 - 312 |
Madelung Energy and Stability of the Compound Li7C24 Prepared Under Pressure
Setton R, Conard J |
| 313 - 320 |
I-129 Mossbauer and X-Ray-Diffraction Studies of the Iodine-Fullerene Compound C-60(I-2)(Approximate-to-2)
Wortmann G, Grushko YS, Bolotov A, Bychkov EA, Bensch W, Werner H, Schlogl R |
| 313 - 318 |
Low-Temperature Structures of Stage-2 Cesium Graphitides with Various Compositions
Duclaux L, Rannou I, Beguin F |
| 319 - 324 |
Order-Disorder Phase-Transition in Acceptor Type Graphite-Intercalation Compounds
Ionov SG, Avdeev VV, Kulbachinskii VA, Lapin SA, Kamenskaya EA, Udod EB |
| 321 - 326 |
X-Ray-Absorption Study of the Local-Structure at Potassium and Rubidium in K3-Xrbxc60
Nowitzke G, Dumschat J, Wortmann G, Werner H, Schlogl R |
| 325 - 330 |
Mercury Intercalation into Lamellar Transition-Metal Disulfides
Moreau P, Ganal P, Ouvrard G |
| 327 - 332 |
AC Susceptibility Investigations of Superconducting Doped Fullerenes A(X)C(60)
Baenitz M, Straube E, Kraus M, Werner H, Schlogl R, Luders K |
| 331 - 336 |
Study by X-Ray Crystallography and Mossbauer-Spectroscopy of the Layered Compounds with 2-Dimensional Metal-Complex Iron(II) Tetracyanonickelate(II)
Kitazawa T, Fukunaga M, Takahashi M, Takeda M |
| 333 - 337 |
Superconducting Properties of K3C60 and Rb3C60 Single-Crystals in High Fields
Louis JM, Chouteau G, Ksari Y, Martinez G, Hou JG, Crespi VH, Xiang XD, Vareka WA, Briceno G, Zetl A, Cohen ML |
| 337 - 342 |
Effect of Cobalt Substitution on the Jahn-Teller Distortion of the Nanio2 Layered Oxide
Delmas C, Saadoune I, Dordor P |
| 339 - 344 |
Superconducting Intercalated Fullerenes - Preparation Routes and Properties
Kraus M, Baenitz M, Werner H, Schlogl R, Thommen V, Guntherodt HJ, Luders K |
| 343 - 354 |
Misfit Layer Compounds (MX)(N)(Tx(2))(M) (M=sn, Pb, Bi, Rare-Earth, T = Transition Metal, X=s, Se, 1.08-Less-Than-N-Less-Than-1.25, M=1, 2)
Rouxel J, Meerschaut A |
| 345 - 351 |
Superconductivity in Doped Fullerites
Lannoo M |
| 353 - 359 |
High-Tc and Narrow-Band in Fullerenes - The Anderson Paradox
Bok J, Force L |
| 355 - 360 |
Restacking Exfoliated Layered Compounds
Yang D, Frindt RF |
| 361 - 366 |
Structural Study of Graphite Oxyfluoride and Their Derivative Compounds
Hamwi A, Alsaleh I |
| 361 - 362 |
Symposium Summary
Dresselhaus G |
| 367 - 372 |
Lithium Insertion Study in Vanadium-Oxide Bronze by NMR and X-Ray-Diffraction
Savariault JM, Deramond E, Galy J, Mongrelet T, Hirschinger J |
| 373 - 378 |
Structural Results About Localization of Tetrahedral Oxo-Anions Intercalated in Lamellar Double Hydroxides
Ennadi A, Khaldi M, Deroy A, Besse JP |
| 379 - 384 |
CDW in FeCl4- - Graphite-Intercalation Compounds Studied by STM
Daulan C, Roux JC, Flandrois S, Saadaoui H, Nysten B |
| 385 - 390 |
Atomic-Resolution Surface Imaging of Binary and Ternary Stage-1 Alkali-Metal Graphite-Intercalation Compounds by Scanning-Tunneling-Microscopy
Lang HP, Thommengeiser V, Guntherodt HJ |
| 391 - 396 |
Valence-Band Photoemission-Study of Cs Intercalated Vse2
Starnberg HI, Brauer HE, Nilsson PO, Holleboom LJ, Hughes HP |
| 397 - 402 |
Magnetic-Properties of Vanadium Adsorbed on Graphite
Rakotomahevitra A, Garreau G, Demangeat C, Parlebas JC, Moraitis G, Razafindrakoto E |
