Deceglie, Michael Gardner Advanced silicon solar cell device physics and design. A fundamental challenge in the development and deployment of solar photovoltaic technology is a reduction in cost phd thesis silicon solar cells direct competition with fossil-fuel-based energy sources.
A key driver in this cost reduction is optimized device efficiency, because increased energy output leverages all photovoltaic system costs, from raw materials and module manufacturing to installation and maintenance.
To continue progress toward higher conversion efficiencies, solar cells are being fabricated with increasingly complex designs, including engineered nanostructures, heterojunctions, and novel contacting phd thesis passivation schemes. Such advanced designs require a comprehensive and unified understanding of the optical and electrical device physics at the microscopic scale. This thesis focuses on a microscopic understanding of solar cell optoelectronic performance and its impact on cell optimization.
We consider this in three solar cell platforms: The work described in this thesis represents a powerful design paradigm, based phd thesis silicon solar cells detailed physical understanding of the solar cells governing phd thesis silicon cell performance.
Furthermore, we demonstrate the importance of understanding not just the individual mechanisms, but also their interactions.
Such silicon solar cells approach to device optimization is critical for the efficiency and competitiveness phd thesis silicon solar cells solar cells future generations of solar cells.
A Caltech Library Service. Advanced silicon solar cell device physics solar cells design. Citation Deceglie, Michael Gardner Advanced silicon solar cell device physics and design. Abstract A fundamental challenge in the development and deployment of solar photovoltaic technology is a reduction silicon solar cells cost enabling direct competition with fossil-fuel-based energy sources.
More go here and software credits. Advanced silicon solar phd thesis silicon solar cells device physics and design Citation Deceglie, Michael Gardner Advanced phd thesis silicon solar cells solar cell device physics and design.
Solar cells; photovoltaics; device physics; modeling; simulation; light trapping; thin film; silicon. No how to studies report reproduction, distribution, display or performance rights in this work are provided.
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