![]() ![]() Xie Y, Zabihi F, Eslamian M (2016) Fabrication of highly reproducible polymer solar cells using ultrasonic substrate vibration posttreatment. ![]() doi: 10.1002/adfm.200500211ĭennler G, Scharber MC, Brabec CJ (2009) Polymer-Fullerene bulk-heterojunction solar cells. (2005) Thermally stable, efficient polymer solar cells with nanoscale control of the interpenetrating network morphology. (1995) Efficient photodiodes from interpenetrating polymer networks. (1995) Polymer photovoltiac cells: Enhanced efficiencies via a network of internal donor-acceptor heterojunctions. Optimization of active-layer thickness, top electrode and annealing temperature for polymeric solar cells. In the case of Ca/Al, being as a top electrode rather than LiF/Al and Al, substantial efficiency enhancement, from 1.70% to 2.78%, was obtained at low temperature, 130 ☌, providing ease for charge collection and pertaining conductive nature of increased resistivity at high temperature.Ĭitation: Said Karim Shah, Jahangeer Khan, Irfan Ullah, Yaqoob Khan. The reason is ascribed as sufficient light absorption, excitons dissociation/diffusion and carriers transportation. The device’s active-layer film-thicknesses were optimized while depositing at different spin speeds where 120-nm-thick layer (D2) gives maximum power conversion efficiency of 2.9%, annealed at 165 ☌. Organic solar cells, processed from solution at various optimizing device parameters, were investigated. ![]()
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