| 127 - 127 |
Solid State Lithium Battery Workshop - July 1999, Towson, MD, USA - Preface
Deppe J, Heitner K, Landgrebe A, Maupin P |
| 128 - 131 |
The search for the better polymer electrolyte
Heitner KL |
| 132 - 138 |
Comparison of lithium-polymer cell performance with unity and nonunity transference numbers
Thomas KE, Sloop SE, Kerr JB, Newman J |
| 139 - 142 |
Simulation of battery components and interfaces on the atomic scale: examples of what we can learn
Halley JW, Duan YH |
| 143 - 148 |
Contrasting film formation reactions of ethereal and carbonate solvents on metallic lithium
Zhuang GR, Ross PN |
| 149 - 155 |
Performance limitations of polymer electrolytes based on ethylene oxide polymers
Buriez O, Han YB, Hou J, Kerr JB, Qiao J, Sloop SE, Tian MM, Wang SG |
| 156 - 162 |
Fumed silica-based composite polymer electrolytes: synthesis, rheology, and electrochemistry
Walls HJ, Zhou J, Yerian JA, Fedkiw PS, Khan SA, Stowe MK, Baker GL |
| 163 - 167 |
New approaches to the design of polymer and liquid electrolytes for lithium batteries
McBreen J, Lee HS, Yang XQ, Sun X |
| 168 - 175 |
The role of polymer melt viscoelastic network behavior in lithium ion transport for PEO melt/LiClO4 SPEs: the "wet gel" model
Walter R, Walkenhorst R, Smith M, Selser JC, Piet G, Bogoslovov R |
| 176 - 179 |
Addition of a thin-film inorganic solid electrolyte (Lipon) as a protective film in lithium batteries with a liquid electrolyte
Dudney NJ |
| 180 - 189 |
Spectroscopic ellipsometry of lithium/polymer electrolyte interfaces
Kong FP, McLarnon F |
| 190 - 200 |
Molecular dynamics simulations of cathode/glass interface behavior: effect of orientation on phase transformation, Li migration, and interface relaxation
Garofalini SH, Shadwell P |
| 201 - 205 |
A study of electronic shorting in IBDA-deposited Lipon films
Vereda F, Clay N, Gerouki A, Goldner RB, Haas T, Zerigian P |
| 206 - 218 |
Review of selected electrode-solution interactions which determine the performance of Li and Li ion batteries
Aurbach D |
| 219 - 226 |
Electrochemical performance of lithium/sulfur cells with three different polymer electrolytes
Marmorstein D, Yu TH, Striebel KA, McLarnon FR, Hou J, Cairns EJ |
| 227 - 231 |
Transport properties of binary salt polymer electrolytes
Doeff MM, Edman L, Sloop SE, Kerr J, De Jonghe LC |
| 232 - 236 |
Structural aspects of electrochemically lithiated SnO: nuclear magnetic resonance and X-ray absorption studies
Wang Y, Sakamoto J, Kostov S, Mansour AN, denBoer ML, Greenbaum SG, Huang CK, Surampudi S |
| 237 - 243 |
Li-7 NMR study of intercalated lithium in curved carbon lattices
Gerald RE, Klingler RJ, Sandi G, Johnson CS, Scanlon LG, Rathke JW |
| 244 - 248 |
USABC and PNGV test procedures
Duong TQ |
| 249 - 255 |
Toward standardizing the measurement of electrochemical properties of solid-state electrolytes in lithium batteries
Dees DW, Battaglia VS, Redey L, Henriksen GL, Atanasoski R, Belanger A |
| 256 - 259 |
Recommendations and conclusions from the advanced solid state lithium batteries workshop
Deppe J |
