1 |
Influence of cycling temperature on the electrochromic properties of WO3// NiO devices built with various thicknesses Da Rocha M, He YC, Diao XG, Rougier A Solar Energy Materials and Solar Cells, 177, 57, 2018 |
2 |
Electron transport and electrochromic properties of sol-gel WO3 thin films: Effect of crystallinity Ge CX, Wang MS, Hussain S, Xu ZW, Liu GW, Qiao GJ Thin Solid Films, 653, 119, 2018 |
3 |
Textured WO3 and WO3:Mo films deposited from chemical solution on stainless steel Raudoniene J, Laurikenas A, Kaba MM, Sahin G, Morkan AU, Brazinskiene D, Asadauskas S, Seidu R, Kareiva A, Garskaite E Thin Solid Films, 653, 179, 2018 |
4 |
Optimization of mixed conductivity through nanostructure control in WO3 thin films Samad BA, Ashrit PV Thin Solid Films, 636, 717, 2017 |
5 |
Preparation of nanostructured tungsten trioxide thin films by high pressure sublimation and condensation Samad BA, Thibodeau J, Ashrit PV Applied Surface Science, 350, 94, 2015 |
6 |
Temperature dependence of the electrical conductivity of dry lithiated Tungsten trioxide thin films Samad BA, Ashrit PV Solid State Ionics, 283, 52, 2015 |
7 |
Electrical, optical and electrochromic properties of Ti:WO3 thin films deposited by the pulsed chemical spray technique Acosta DR, Magana C, Hernandez F, Ortega J Thin Solid Films, 594, 207, 2015 |
8 |
Synthesis and structural characterization of tungsten trioxide nanoplatelet-containing thin films prepared by Aqueous Chemical Growth Sone BT, Sithole J, Bucher R, Mlondo SN, Ramontja J, Ray SS, Iwuoha E, Maaza M Thin Solid Films, 522, 164, 2012 |
9 |
Photoelectrochemical and physical properties of WO3 films obtained by the polymeric precursor method Li WZ, Li J, Wang X, Ma J, Chen QY International Journal of Hydrogen Energy, 35(24), 13137, 2010 |
10 |
Electrochromic and morphological investigation of dry-lithiated nanostructured tungsten trioxide thin films Beydaghyan G, Bader G, Ashrit PV Thin Solid Films, 516(8), 1646, 2008 |