نتایج جستجو برای: si solar cells
تعداد نتایج: 1548642 فیلتر نتایج به سال:
The solar power conversion efficiency of compositionally graded InxGa1 xN solar cells was simulated using a finite element approach. Incorporating a compositionally graded region on the InGaN side of a p-GaN/n-InxGa1 xN heterojunction removes a barrier for hole transport into GaN and increases the cell efficiency. The design also avoids many of the problems found to date in homojunction cells a...
A transparent, flexible contact is developed using Ni nanoparticles and Ag nanowires and demonstrated on free-standing, polymer embedded, Si microwire solar cells. Contact yields of over 99% and a series resistance of 14 Ω cm² are demonstrated.
Articles you may be interested in Low-loss waveguiding and detecting structure for surface plasmon polaritons Appl. Direct generation of charge carriers in c-Si solar cells due to embedded nanoparticles
new kinds of hydroquinone derivatives were synthesized and along with a azo dye applied as additives in the iodide/iodine redox electrolyte for dye-sensitized solar cells and their effect on the short-circuit photocurrent of dye sensitized solar cells was investigated. addition of 0.05 m a hydroquinone derivative in the electrolyte comprising 0.5 m 1-methyl-3-propylimidazolium iodide (mpii) and...
A new type of light trapping structure utilizing ring-shaped metallic nanocavity arrays is proposed for the absorption enhancement in ultrathin solar cells with few photonic waveguide modes. Dozens of times of broadband absorption enhancement in the spectral range of 700 to 1100 nm is demonstrated in an ultrathin Si3N4/c-Si/Ag prototype solar cell by means of finite-difference time-domain (FDTD...
Organic-inorganic hybrid tandem solar cells attract a considerable amount of attention due to their potential for realizing high efficiency photovoltaic devices at a low cost. Here, highly efficient triple-junction (TJ) hybrid tandem solar cells consisting of a double-junction (DJ) amorphous silicon (a-Si) cell and an organic photovoltaic (OPV) rear cell were developed. In order to design the T...
A main loss factor in conventional solar cells is the mismatch of solar spectrum and bandgap energy of the absorber material. Thus, photons with energies above the bandgap generate hot carriers which lose their excess energy via thermalization. A concept in 3rd generation photovoltaics that aims to circumvent thermalization losses is to realize appropriate Si based nanound quantum structures, s...
Standard surface passivation schemes for crystalline silicon solar cells use SiO2 or SiNx. The c-Si surface passivation mechanisms related with these schemes have been elucidated within the framework of interface recombination modeled by an extended SRH formalism: interface recombination centers characteristic of the SiO2 passivation have larger electron (e) than hole (h) capture cross sections...
Understanding the maximal enhancement of solar absorption in semiconductor materials by light trapping promises the development of affordable solar cells. However, the conventional Lambertian limit is only valid for idealized material systems with weak absorption, and cannot hold for the typical semiconductor materials used in solar cells due to the substantial absorption of these materials. He...
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