Add to ORKGThis thesis undertakes fabrication, characterization and optimization of front and back junction solar cells. As part of our effort on cost reduction strategy, a simple technologies of conventional furnace processing (CFP) and rapid thermal processing (RTP) has been compared. Tesis ini menjalankan fabrikasi, pencirian dan pengoptimuman sel-sel suria persimpangan depan dan belakang. Sebagai sebahagian usaha kami iaitu strategi pengurangan kos, satu teknologi mudah pemprosesan relau konvensional (CFP) dan pemprosesan terma yang pesat (RTP) telah dibandingka
In this paper we present the Fraunhofer ISE approach to high-efficiency back-contact back-junction (...
AbstractBack-contact back-junction solar cell has the potential for high efficiency energy conversio...
AbstractHere we present the latest results of our double side contacted, all screen printed n-type m...
Conventional silicon solar cells have a front-side contacted emitter. Back-contacted back-junction (...
The objective of this thesis was the development of a crystalline silicon back contact solar cell, w...
This chapter aims to provide students/workers in the field of photovoltaics with the valuable inform...
Aiming for industrial solar cell fabrication the ratio of costs to watt peak has to be lowered [1]. ...
In this thesis it has been used the detailed electrical-optical model Amorphous Semiconductor Device...
Recent progress in the development of advanced front-junction n-type monocrystalline solar cells for...
Although existing technology can produce highly efficient solar cells, they remain commercially cost...
This work presents a study based on electro-optical numerical simulations of the impact of geometric...
Abstract: Surface recombination loss should be reduced for high efficiency of solar cells. To reduce...
Energy from the sun is the best option for electricity generation as it is abundantly available ever...
N-type back-contact back-junction solar cells were processed with the use of industrially relevant s...
This paper proposes a novel concept for integrating ultrathin solar cells into modules. It is concei...
In this paper we present the Fraunhofer ISE approach to high-efficiency back-contact back-junction (...
AbstractBack-contact back-junction solar cell has the potential for high efficiency energy conversio...
AbstractHere we present the latest results of our double side contacted, all screen printed n-type m...
Conventional silicon solar cells have a front-side contacted emitter. Back-contacted back-junction (...
The objective of this thesis was the development of a crystalline silicon back contact solar cell, w...
This chapter aims to provide students/workers in the field of photovoltaics with the valuable inform...
Aiming for industrial solar cell fabrication the ratio of costs to watt peak has to be lowered [1]. ...
In this thesis it has been used the detailed electrical-optical model Amorphous Semiconductor Device...
Recent progress in the development of advanced front-junction n-type monocrystalline solar cells for...
Although existing technology can produce highly efficient solar cells, they remain commercially cost...
This work presents a study based on electro-optical numerical simulations of the impact of geometric...
Abstract: Surface recombination loss should be reduced for high efficiency of solar cells. To reduce...
Energy from the sun is the best option for electricity generation as it is abundantly available ever...
N-type back-contact back-junction solar cells were processed with the use of industrially relevant s...
This paper proposes a novel concept for integrating ultrathin solar cells into modules. It is concei...
In this paper we present the Fraunhofer ISE approach to high-efficiency back-contact back-junction (...
AbstractBack-contact back-junction solar cell has the potential for high efficiency energy conversio...
AbstractHere we present the latest results of our double side contacted, all screen printed n-type m...