Novel High Efficiency Quadruple Junction Solar Cell with Current Matching and Optimized Quantum Efficiency
Mohammad Jobayer Hossain

TL;DR
This paper presents a novel quadruple junction solar cell with optimized layer parameters achieving over 47% efficiency under terrestrial conditions and over 44% in space, covering ultraviolet to infrared spectrum.
Contribution
The study introduces a new III-V quadruple junction design with current matching and optimized quantum efficiency for high solar energy conversion.
Findings
Achieved 47.21% efficiency under AM1.5 spectrum.
Designed a space-optimized version with 44.55% efficiency.
Ensured current matching for maximum performance.
Abstract
A high photon to electricity conversion efficiency of 47.2082% was achieved by a novel combination of In0.51Ga0.49P, GaAs, In0.24Ga0.76As and In0.19Ga0.81Sb subcell layers in a quadruple junction solar cell design. The electronic bandgap of these materials are 1.9 eV, 1.42 eV, 1.08 eV and 0.55 eV respectively. This novel III-V arrangement enables the cell to absorb photons from the ultraviolet to deep infrared wavelengths of the solar spectrum. After careful consideration of important semiconductor parameters such as thicknesses of emitter and base layers, doping concentrations, diffusion lengths, minority carrier lifetimes and surface recombination velocities an optimized quadruple junction design has been suggested. Current matching of the subcell layers was ensured to obtain maximum efficiency from the proposed design. The short-circuit current density, open circuit voltage and fill…
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Taxonomy
Topicssolar cell performance optimization · Silicon and Solar Cell Technologies · Photovoltaic System Optimization Techniques
