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RESEARCH PRODUCT
Analytic $JV$ -Characteristics of Ideal Intermediate Band Solar Cells and Solar Cells With Up and Downconverters
Rune Strandbergsubject
010302 applied physicsPhysicsTheory of solar cellsPhotonbusiness.industryPhotovoltaic systemShockley–Queisser limit02 engineering and technology021001 nanoscience & nanotechnology01 natural sciencesElectronic Optical and Magnetic MaterialsComputational physicsMultiple exciton generationsymbols.namesakeOptics0103 physical sciencesBoltzmann constantsymbolsElectrical and Electronic EngineeringConnection (algebraic framework)0210 nano-technologybusinessEnergy (signal processing)description
The ideal diode equation is regularly used to describe the $\textit {JV}$ -characteristic of single junction solar cells. The connection between the diode equation and fundamental physics is the application of the Boltzmann approximation to describe the fluxes of photons emitted by the cell. In this paper, this approximation is used to derive analytic $\textit {JV}$ -characteristics for three photovoltaic high-efficiency concepts, intermediate band solar cells, and solar cells optically coupled to up and downconverters. These three concepts share the common feature that they allow excitation of electrons between at least three energy levels, which assures a better utilization of the solar spectrum and leads to limiting efficiencies surpassing the Shockley–Queisser limit. Although being considerablysimpler to implementand use, the resulting $\textit {JV}$ -characteristics reproduce the limiting efficiencies obtained from full detailed balancemodels. The simplicity facilitates the intuitive understanding of such devices. The presented models also have the potential to serve as a useful framework for further modeling, through savings in computation time and complexity.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2017-05-01 | IEEE Transactions on Electron Devices |