18 résultats avec le mot-clé: 'hybrid systems highly efficient stable perovskite solar cells'
Chapter 5 PEDOT:PSTFSI Hole Transporting Material Towards Semi-Transparent Inverted Perovskite Solar Cells
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Tandem solar cells have benefited from band gap engineering of perovskite solar cells more than other aforementioned applications. Tandem solar cell is composed of two sub cells
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Cost-effective hole transporting material for stable and efficient perovskite solar cells with fill 434 . factors up to
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investigate the conduction band energy and density of free charges, charge extraction measurements of complete PSCs to probe the trap state density and IMVS and IMPS of DSSCs
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Here, the detailed characterizations on the morphology and the spectroscopic aspects of the nanocolumns, their near-field and far-field optical properties, solar cells
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Figure S2. JV curves for highest iodide content devices. a) JV forward scan for I 62% / Br 38% halide composition pristine device and after 100h exposed to normal
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In addition to the challenge of preparing a phase stable CsPbI x Br (3−x) perovskite, which we demonstrated for iodine content below 60%, the thermal stability [17,54,55] is
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also reported spontaneous increase of the average crystal size in CH 3 NH 3 PbBr 3 perovskite films stored in the dark at room temperature, but a potential impact on PSCs
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Light management in highly-textured perovskite solar cells: From full-device ellipsometry characterization to optical modelling for quantum efficiency optimization... *
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In this context we report here experimental details to fabricate evaporated hybrid perovskite films including material densities, heating temperatures and
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A new method for preparation and one-step process deposition of the perovskite material [4] is here used in a planar heterojunction FTO/compact-TiO 2 /MAPbI 3 /HTM/Au
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The main objectives were to study the relationship between the molecular structure and device performance, to bring fundamental understandings of the requirements
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(a) Schematic of the perovskite/silicon tandem solar cell (not to scale), (b) optical microscope image of the silicon- nanoparticle-patterned rear side of the
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Both silver nanoparticles and silver nitrate were cytotoxic (as determined by impact on mitochondrial activity), although the cytotoxic impacts of silver nitrate (EC 50 – 6
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morphology due to the 2D NPL shape and to a preferential (100) surface structure, as deduced from the TEM of the PbS NPLs, [38] resulting in a highly efficient and stable device.
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Using the optimum values of HOP bandgap energy and layer thickness mentioned above, we simulate the properties of tandem cell for different values of the tunnel junction
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