| 1 |
APCVD of dual layer transparent conductive oxides for photovoltaic applications
Yates HM, Gaskell JM, Thomson ME, Sheel DW, Delaup B, Morales-Masis M
Thin Solid Films, 590, 260, 2015 |
| 2 |
A study of the electrochemical performance of vanadium oxide thin films grown by atmospheric pressure chemical vapour deposition
Vernardou D, Paterakis P, Drosos H, Spanakis E, Povey IM, Pemble ME, Koudoumas E, Katsarakis N
Solar Energy Materials and Solar Cells, 95(10), 2842, 2011 |
| 3 |
Numerical simulation of thermoconvective flows and more uniform depositions in a cold wall rectangular APCVD reactor
Nicolas X, Benzaoui A, Xin SH
Journal of Crystal Growth, 310(1), 174, 2008 |
| 4 |
In-situ Fourier transform infrared spectroscopy gas phase studies of vanadium (IV) oxide coating by atmospheric pressure chemical vapour deposition using vanadyl (IV) acetylacetonate
Vernardou D, Pemble ME, Sheel DW
Thin Solid Films, 516(14), 4502, 2008 |
| 5 |
Hydrogenation of polycrystalline silicon thin films
Honda S, Mates I, Knizek K, Ledinsky M, Fejfar A, Kocka J, Yamazaki T, Uraoka Y, Fuyuki T
Thin Solid Films, 501(1-2), 144, 2006 |
| 6 |
Characterization of TiO(2) deposited on textured silicon wafers by atmospheric pressure chemical vapour deposition
Vallejo B, Gonzalez-Manas M, Martinez-Lopez J, Morales F, Caballero MA
Solar Energy Materials and Solar Cells, 86(3), 299, 2005 |
| 7 |
NbS2 thin films by atmospheric pressure chemical vapour deposition and the formation of a new 1T polytype
Carmalt CJ, Manning TD, Parkin IP, Peters ES, Hector AL
Thin Solid Films, 469-470, 495, 2004 |
