A polyfluoroalkyl imidazolium ionic liquid as iodide ion source in dye sensitized solar cells
Organic Electronics Elsevier 13:11 (2012) 2474-2478
Solution-processed dye-sensitized ZnO phototransistors with extremely high photoresponsivity
Journal of Applied Physics 112:7 (2012)
Abstract:
We report the fabrication of light-sensing thin-film transistors based on solution processed films of ZnO, as the channel material, functionalized with an organic dye as the light sensitizer. Due to the presence of the dye, the hybrid devices show exceptionally high photosensitivity to green light of 10 6 and a maximum photoresponsivity on the order of 10 4 A/W. The high performance is argued to be the result of the grain barrier limited nature of electron transport across the polycrystalline ZnO film and its dependence on charge carrier density upon illumination with green light. In addition to the excellent photoresponsivity and signal gain, the hybrid ZnO-dye photoactive layer exhibits high optical transparency. The unique combination of simple device fabrication and distinctive physical characteristics, such as optical transparency, renders the technology attractive for application in large-area transparent photodetectors. © 2012 American Institute of Physics.Nanoscale Manipulation, Heating, and Welding of Nanowires
ASME Journal of Heat and Mass Transfer ASME International 134:8 (2012) 080910
The perils of solar cell efficiency measurements
Nature Photonics 6:6 (2012) 337-340
TiO2 Photoanodes: Triblock‐Terpolymer‐Directed Self‐Assembly of Mesoporous TiO2: High‐Performance Photoanodes for Solid‐State Dye‐Sensitized Solar Cells (Adv. Energy Mater. 6/2012)
Advanced Energy Materials Wiley 2:6 (2012) 609-609