Fabrication of large-area silicon nanowires arrays for solar cell application
The technical compatibility of forming nanopillars with existing semi-conductor technology will be used to fabricate large area silicon nanowires array for solar cell device. The nanopillars on the solar cell has many advantages in term of light trapping, shorter distance for photon generated car...
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| Format: | Final Year Project |
| Language: | English |
| Published: |
2010
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| Subjects: | |
| Online Access: | http://hdl.handle.net/10356/40688 |
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| Institution: | Nanyang Technological University |
| Language: | English |
| Summary: | The technical compatibility of forming nanopillars with existing semi-conductor technology will
be used to fabricate large area silicon nanowires array for solar cell device. The nanopillars on
the solar cell has many advantages in term of light trapping, shorter distance for photon
generated carriers collection, cost and efficiency than existing solar cell with multiple
antireflection coatings and surface texturing.
So the purpose of the project is to fabricate the periodically aligned silicon nanopillars, the
disordered silicon nanopillars and the planar solar cell where their power conversion efficiency
and the reflectance are examined and compared.
From the discussion, the silicon nanopillars are achieved using silver catalyzed wet chemical
etching method where the periodically aligned silicon nanopillars with a controllable length,
diameter and density would use PS sphere as a mask to achieve highly ordered nanopillar to
achieve light reflection suppression and enhanced light trapping. It also has shorter distance for
photon generated carrier collection and thus increases the power conversion efficiency of the
solar cell. The power conversion efficiency of the periodically aligned silicon nanopillars is
found to be the best among the 3 solar cell.
Therefore we can conclude that the periodically aligned silicon nanopillars with a highly order
nanopillars is the most promising in term of light trapping, shorter distance for photon generated
carriers collection and power conversion efficiency. However, much research can be done to
further improve its efficiency by optimizing the electrical contact and the manufacturing defect
on the PN junction. Also by varying the sequence of the process, the vertical aligned core-shell
silicon nanopillars solar cell could be look into to produce a higher efficiency solar cell. |
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