This is the Master s Thesis of Eirik Timo Bøe Vilpponen, and was writtenat the Department of Physics at the Norwegian University of Science andTechnology (NTNU). The thesis is twofold, the first part being the comple-tion of a project undertaken during the fall of 2010. The project concernedthe setup of a solar cell current-voltage characterization lab [4] at the sameDept. of Physics.The second part is an analysis of the current-voltage characteristics ofNTNU-made quantum-dot intermediate band solar cells. A strong focus isput on exploring the possibility of utilizing the Two-Diode Model as a meansof analysis. The two-diode model has been found to have a good potential forthis use, but that it requires a specially made curve fitting compute...
The intermediate band solar cell (IBSC) is a so-called third generation solar cell, based on a new t...
International audienceLagrange multipliers provide a powerful framework to devise the optimization o...
Intermediate band solar cells (IBSCs) are a new kind of devices capable of surpassing the Shockley Q...
An intermediate band solar cell is a novel photovoltaic device with the potential to exceed the effi...
In the quantum dot implementation of an intermediate band solar cell presented in this thesis, the o...
In this paper, a model for intermediate band solar cells is built based on the generally understood ...
An intermediate band solar cell is a novel photovoltaic device with the potential to exceed the effi...
Abstract- In this paper, Quantum dots intermediate band solar cell (QDIBSC) is used to the enhanceme...
This thesis presents theoretical work on the intermediate band solar cell (IBCS). It is divided into...
学位の種別: 課程博士審査委員会委員 : (主査)東京大学教授 荒川 泰彦, 東京大学教授 平川 一彦, 東京大学教授 岡田 至崇, 東京大学教授 高橋 琢二, 東京大学准教授 岩本
An attractive but challenging technology for high efficiency solar energy conversion is the intermed...
Intermediate band solar cells (IBSC) is a technology that promises higher efficiency solar cells wit...
With a 63.2% theoretical efficiency limit, the intermediate band solar cell (IBSC) is a new photovol...
In this thesis the results from simulations of a tandem intermediate band solar cell are presented a...
This thesis focuses on the analysis of the external quantum efficiency of quantum dot-enhanced multi...
The intermediate band solar cell (IBSC) is a so-called third generation solar cell, based on a new t...
International audienceLagrange multipliers provide a powerful framework to devise the optimization o...
Intermediate band solar cells (IBSCs) are a new kind of devices capable of surpassing the Shockley Q...
An intermediate band solar cell is a novel photovoltaic device with the potential to exceed the effi...
In the quantum dot implementation of an intermediate band solar cell presented in this thesis, the o...
In this paper, a model for intermediate band solar cells is built based on the generally understood ...
An intermediate band solar cell is a novel photovoltaic device with the potential to exceed the effi...
Abstract- In this paper, Quantum dots intermediate band solar cell (QDIBSC) is used to the enhanceme...
This thesis presents theoretical work on the intermediate band solar cell (IBCS). It is divided into...
学位の種別: 課程博士審査委員会委員 : (主査)東京大学教授 荒川 泰彦, 東京大学教授 平川 一彦, 東京大学教授 岡田 至崇, 東京大学教授 高橋 琢二, 東京大学准教授 岩本
An attractive but challenging technology for high efficiency solar energy conversion is the intermed...
Intermediate band solar cells (IBSC) is a technology that promises higher efficiency solar cells wit...
With a 63.2% theoretical efficiency limit, the intermediate band solar cell (IBSC) is a new photovol...
In this thesis the results from simulations of a tandem intermediate band solar cell are presented a...
This thesis focuses on the analysis of the external quantum efficiency of quantum dot-enhanced multi...
The intermediate band solar cell (IBSC) is a so-called third generation solar cell, based on a new t...
International audienceLagrange multipliers provide a powerful framework to devise the optimization o...
Intermediate band solar cells (IBSCs) are a new kind of devices capable of surpassing the Shockley Q...