Add to ORKGThe current-voltage characteristics and efficiencies of solar cells are discussed. For one solar cell structure detailed curves are presented which include carrier densities, current densities, potential, and quasi-Fermi levels at different voltage levels both with and without optically generated carriers (AMO conditions). In addition some results are presented concerning the influence of various parameter variations such as lifetime, cell thickness, and high-low junction width on solar cell performance
We analyze the current density – voltage (J – V) curve of a Cu(In,Ga)Se2 (CIGS) thin-film solar cell...
Calculations of GaAs solar cell output parameters were refined and a computer model was developed fo...
A model is introduced which divides a solar cell locally into a 'baseline' region, showing a homogen...
Various mechanisms which limit the conversion efficiency of silicon solar cells were studied. The ef...
A quantitative approach was employed with the aim of reviewing and elucidating the development of Cu...
Precise values of the reverse saturation currents in silicon solar cells and magnitudes of the diffu...
A description of a typical high-efficiency solar cell and its working principle are given. This is a...
Silicon solar cells are prevailing types in the commercial market due to their stability, robustness...
AbstractAn I-V characteristic measurements of silicon solar cell were carried out, the result showed...
At the end of the solar cell manufacturing process the current-density vs. voltage curves (J(U) curv...
The history of solar cell development is briefly outlined, and the properties of the sun and solar r...
The grade of a solar cell depends mainly on the quality of the starting material. During the product...
In this Part 1 of this series of articles, two iterative cycles are proposed to accurately determine...
Analytical modeling of p-i-n solar cells constitutes a practical tool to extract electronic material...
In this paper three different procedures for extracting the current-voltage characteristics of a cry...
We analyze the current density – voltage (J – V) curve of a Cu(In,Ga)Se2 (CIGS) thin-film solar cell...
Calculations of GaAs solar cell output parameters were refined and a computer model was developed fo...
A model is introduced which divides a solar cell locally into a 'baseline' region, showing a homogen...
Various mechanisms which limit the conversion efficiency of silicon solar cells were studied. The ef...
A quantitative approach was employed with the aim of reviewing and elucidating the development of Cu...
Precise values of the reverse saturation currents in silicon solar cells and magnitudes of the diffu...
A description of a typical high-efficiency solar cell and its working principle are given. This is a...
Silicon solar cells are prevailing types in the commercial market due to their stability, robustness...
AbstractAn I-V characteristic measurements of silicon solar cell were carried out, the result showed...
At the end of the solar cell manufacturing process the current-density vs. voltage curves (J(U) curv...
The history of solar cell development is briefly outlined, and the properties of the sun and solar r...
The grade of a solar cell depends mainly on the quality of the starting material. During the product...
In this Part 1 of this series of articles, two iterative cycles are proposed to accurately determine...
Analytical modeling of p-i-n solar cells constitutes a practical tool to extract electronic material...
In this paper three different procedures for extracting the current-voltage characteristics of a cry...
We analyze the current density – voltage (J – V) curve of a Cu(In,Ga)Se2 (CIGS) thin-film solar cell...
Calculations of GaAs solar cell output parameters were refined and a computer model was developed fo...
A model is introduced which divides a solar cell locally into a 'baseline' region, showing a homogen...