Your search keyword '"null Mintairov M. A."' showing total 2 results

1. Increasing the efficiency of triple-junction solar cells due to the metamorphic InGaAs subcell

Author

null Kalyuzhnyy N. A., null Shvarts M.Z., null Salii R.A., null Nakhimovich M. V., null Mintairov S. A., null Evstropov V. V., and null Mintairov M. A.

Abstract

The efficiency of GaInP/GaAs/InxGa1-xAs triple-junction solar cells obtained by replacing (in the widely used "classical" GaInP / GaAs / Ge heterostructure) the lower germanium with InxGa1-xAs subcell formed using the metamorphic growth technology has been investigated. Based on an original approach, the optimal indium concentration in the narrow-gap subcell has been found. The main parameters of InxGa1-xAs subcells with an indium concentration from x=0.11 to 0.36 were determined and were used to calculate the IV characteristics of GaInP/GaAs/InxGa1-xAs solar cells. It has been determined that at x=0.28 the efficiency of the triple-junction solar cell increases by 3.4% (abs) in comparison with the "classical" solar cell, reaching a value of 40.3% (AM1.5D). Also it has been shown that the efficiency of such solar cells can be increased up to 41%. Keywords: Multi-junction solar cells, photoconverters, metamorphic buffer. M.Z.Shvarts

Published

2022

2. Investigation of the photoelectric characteristics of GaAs solar cells with different InGaAs quantum dot array positioning in the i-region

Author

null Kalyuzhnyy N. A., null Shvarts M. Z., null Nakhimovich M. V., null Mintairov S. A., null Mintairov M. A., and null Salii R. A.

Abstract

The effect of positioning of the In0.8Ga0.2As quantum dots (QDs) array in the i-region of the solar cell (SC) on its photogenerated current and dark saturation currents, which determine the device operating voltage, have been investigated. It was found out that the indicated photoelectric characteristics depend on the location of the QD array relative to the electric field of the p-n junction. The displacement of the QD array to the boundary of the weakly doped base leads to a decrease in the photogenerated current. But at the same time, the voltage drop effect, which is well-known for nanoheterostructural SC, is minimal. Keywords: solar cells, quantum dots, dark saturation current

Published

2022