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- This study demonstrates the potential of plasmonic nanostructures (200 nm Aluminum nano-sphere) to greatly enhance the efficiency of ultra-thin film CIGS solar cells by up to 26.14%.
- The research explores the impact of material type, nanostructure size, surface occupancy, and plasmonic nanostructure position on the performance of CIGS solar cells through optical and electrical simulations.
- The use of localized surface plasmon resonance and near-field distribution enhances carrier generation, reduces recombination, and improves carrier separation, thereby increasing light absorption in the active layer.
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- enhancement of thermal stability for poly 2-aminobenzothiazole:MWCNTs composite
- The results suggest that prepared composite can be applied promising candidate for many electrical and optical applications.
- Nanocomposite thin films exhibiting a significant enhancement by a factor of 2.5x104 times as a results of doping the pure polymer by 1% wt MWCNTs.
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