Numerical Demonstration of Trade-off between Carrier Confinement Effect and Carrier Transport for Multiple-Quantum-Well Based High-Efficiency InGaP Solar Cells
| Title | Numerical Demonstration of Trade-off between Carrier Confinement Effect and Carrier Transport for Multiple-Quantum-Well Based High-Efficiency InGaP Solar Cells |
| Publication Type | Conference Paper |
| Year of Publication | 2019 |
| Authors | Huang, Hsiang-Hung, Toprasertpong, Kasidit, Delamarre, Amaury, Watanabe, Kentaroh, Sugiyama, Masakazu, Nakano, Yoshiaki |
| Conference Name | 2019 Compound Semiconductor Week (CSW) |
| ISBN Number | 978-1-7281-0080-7 |
| Keywords | bulk material, carrier confinement effect, carrier density, carrier mobility, carrier transport, composability, confinement, cyber-physical system, Cyber-physical systems, effective carrier mobility, electron-hole recombination, gallium compounds, high-efficiency solar cells, III-V semiconductors, In1-xGaxP-In1-yGayP, indium compounds, InGaP, MQW structure, multiple quantum wells, multiple-quantum-well, numerical analysis, numerical demonstration, open-circuit voltage, photovoltaic efficiency, photovoltaics, privacy, pubcrawl, radiative carrier recombination, resilience, Resiliency, semiconductor quantum wells, smart design, solar cells, wide band gap semiconductors |
| Abstract | To promote InGaP solar cell efficiency toward the theoretical limit, one promising approach is to incorporate multiple quantum wells (MQWs) into the InGaP host and improve its open-circuit voltage by facilitating radiative carrier recombination owing to carrier confinement. In this research, we demonstrate numerically that a strain-balanced (SB) In1-xGaxP/In1-yGayP MQW enhances confined carrier density while degrades the effective carrier mobility. However, a smart design of the MQW structure is possible by considering quantitatively the trade-off between carrier confinement effect and carrier transport, and MQW can be advantageous over the InGaP bulk material for boosting photovoltaic efficiency. |
| URL | https://ieeexplore.ieee.org/document/8819121 |
| DOI | 10.1109/ICIPRM.2019.8819121 |
| Citation Key | huang_numerical_2019 |
- pubcrawl
- multiple quantum wells
- multiple-quantum-well
- numerical analysis
- numerical demonstration
- open-circuit voltage
- photovoltaic efficiency
- photovoltaics
- privacy
- MQW structure
- radiative carrier recombination
- resilience
- Resiliency
- semiconductor quantum wells
- smart design
- solar cells
- wide band gap semiconductors
- effective carrier mobility
- carrier confinement effect
- carrier density
- carrier mobility
- carrier transport
- composability
- confinement
- cyber-physical system
- cyber-physical systems
- bulk material
- electron-hole recombination
- gallium compounds
- high-efficiency solar cells
- III-V semiconductors
- In1-xGaxP-In1-yGayP
- indium compounds
- InGaP