| 1 - 2 |
9th International Conference on Hot Wire (Cat) and Initiated Chemical Vapor Deposition Preface
Schropp REI, Coclite AM, Ohdaira K, Lau KKS |
| 3 - 8 |
Thermal studies on proton conductive copolymer thin films based on perfluoroacrylates synthesized by initiated Chemical Vapor Deposition
Christian P, Coclite AM |
| 9 - 16 |
Experimental and theoretical investigation of dye sensitized solar cells integrated with crosslinked poly(vinylpyrrolidone) polymer electrolyte using initiated chemical vapor deposition
Smolin YY, Janakiraman S, Soroush M, Lau KKS |
| 17 - 22 |
Fabrication of ionic liquid gel beads via sequential deposition
Karandikar P, Gupta M |
| 23 - 26 |
Feasibility study into the deposition of an organic planarization layer using sequential polymerization initiated chemical vapor deposition
Ichiki K, Altemus B, Gildea A, Faguet J |
| 27 - 31 |
Decomposition processes of photoresist polymers by H atoms produced on hot wire surfaces
Umemoto H, Kato T, Takiguchi M, Takagi S, Horibe H |
| 32 - 36 |
Textured superhydrophobic films on copper prepared using solvent-free methods exhibiting antifouling properties
Yague JL, Segado P, Auset M, Borros S |
| 37 - 41 |
Initiated chemical vapor deposition polymers for high peak-power laser targets
Baxamusa SH, Lepro X, Lee T, Worthington M, Ehrmann P, Laurence T, Teslich N, Suresh A, Burkey DD |
| 42 - 47 |
Role of free-radical chain reactions and silylene chemistry in using methyl-substituted silane molecules in hot-wire chemical vapor deposition
Shi YJ |
| 48 - 52 |
Epitaxial growth of cubic silicon carbide on silicon using hot filament chemical vapor deposition
Hens P, Brow R, Robinson H, Cromar M, Van Zeghbroeck B |
| 53 - 57 |
Growth of diamond thin films on SiCN underlayers by hot filament chemical vapor deposition
Katamune Y, Mori H, Izumi A |
| 58 - 62 |
Controlling the geometrical orientation of hot-wire chemical vapor process grown silicon nanowires
Soam A, Meshram N, Arya N, Kumbhar A, Dusane R |
| 63 - 65 |
Post-deposition catalytic-doping of microcrystalline silicon thin layer for application in silicon heterojunction solar cell
Liu Y, Kim DY, Lambertz A, Ding KN |
| 66 - 72 |
Textured and micropillar silicon heterojunction solar cells with hot-wire deposited passivation layers
Veldhuizen LW, Vijselaar WJC, Gatz HA, Huskens J, Schropp REI |
| 73 - 77 |
Indium tin oxide sputtering damage to catalytic chemical vapor deposited amorphous silicon passivation films and its recovery
Konishi T, Ohdaira K |
| 78 - 81 |
Hot metal wires as sinks and sources of B atoms
Umemoto H, Miyata A |
