Project Details
Abstract
According to the calculation, the theoretical efficiency of ideal three-junction
concentrator solar cells is as high as 56%. In the meanwhile, our research center have the
strength of three MOCVD systems which can provide different epi-structure and the our
partner they are good at the surface plasma theoretical deriving and nano particle preparation.
Therefore, this proposal focus on the design and production of surface plasma enhanced
three-junction InGaP/InGaAs/Ge solar cells. By using three size-dependent band gap
materials and utilizing epitaxial method, the main absorption layer of solar cell could be
generated. When the photonic energy is greater than the value of the energy gap of each
epilayer, the optical absorption coefficient (α) will increase substantially. Therefore, the most
of sunlight with visible wavelengths can be absorbed by this solar cell. To further enhance the
efficiency of solar cells, both the epitaxial and the process technology as well as the theory of
anti-reflective surface layer are worth to further discuss. Here we utilize the theory of nano
plasmonics to enhance the the solar cell’s photovoltaic effect and energy transition. That is,
the metal nanospheres (Au or Ag) will be implanted on the surface layer of the solar cell in
order to perform high conversion efficiency. In addition, we also tend to study the
implantation of metal nanospheres on the photovoltaic absorber layer to solve the problem of
light trapping effect of the thin-film solar cell.
Project IDs
Project ID:PB10301-0027
External Project ID:MOST103-2923-E182-001-MY3
External Project ID:MOST103-2923-E182-001-MY3
Status | Finished |
---|---|
Effective start/end date | 01/01/14 → 31/12/14 |
Fingerprint
Explore the research topics touched on by this project. These labels are generated based on the underlying awards/grants. Together they form a unique fingerprint.