Add to ORKGThe buried base contact (BBC) concept represents a simple industrially feasible scheme for metallizing crystalline silicon thin film (CSITF) solar cells on insulating substrates and further allows metallization by screen printing. However, cells suffered from fill factors of #propor to# 50% due to R_s and R_p losses. By evaluating Al and AgAl pastes for base contacts, R_s is reduced below 1.5 #OMEGA#cm"2. Improved definition of base regions and improved alignment results in shunt resistances > 1 k#OMEGA#cm"2. The interdigitated cells processed on Cz-Si wafers show fill factors up to 73% and efficiencies of 11.5%. Implementation of a firing through SIN_x sequence is difficult due to the formation of inversion channels between em...
An alternative metallization scheme for c-Si solar cells other than Ag screen printing, has gained i...
AbstractIn the photovoltaic industry, screen printing accounts for majority of the metallisation pro...
Abstract: Surface recombination loss should be reduced for high efficiency of solar cells. To reduce...
The Buried Base Contact (BBC) concept represents a simple industrially feasible scheme for metallizi...
Thin crystalline silicon layers deposited on inexpensive substrates present a promising approach to ...
Production steps of crystalline silicon solar cells include several physical and chemical processes ...
This Ph.D. thesis is focused on the development and optimization of front and rear side metallizatio...
One-step screen-printing processes are still the most widely-used technique for the front-side metal...
This thesis examines multicrystalline silicon (mc-Si) as well as back contact silicon solar cells ap...
A Simple way to improve solar cell efficiency is to enhance the absorption of light and reduce the s...
The development of cost-effective and highly efficient solar cells is a primary goal of current rese...
To ensure that photovoltaics contributes significantly to future world energy production, the cost p...
Screen-printing technique is used since 1970’s, but the understanding of screen printed contacts is ...
A dispensing process was developed, allowing for a single step, contactless front side metallization...
In today's market, crystalline silicon wafer technology dominates industrial solar cell production. ...
An alternative metallization scheme for c-Si solar cells other than Ag screen printing, has gained i...
AbstractIn the photovoltaic industry, screen printing accounts for majority of the metallisation pro...
Abstract: Surface recombination loss should be reduced for high efficiency of solar cells. To reduce...
The Buried Base Contact (BBC) concept represents a simple industrially feasible scheme for metallizi...
Thin crystalline silicon layers deposited on inexpensive substrates present a promising approach to ...
Production steps of crystalline silicon solar cells include several physical and chemical processes ...
This Ph.D. thesis is focused on the development and optimization of front and rear side metallizatio...
One-step screen-printing processes are still the most widely-used technique for the front-side metal...
This thesis examines multicrystalline silicon (mc-Si) as well as back contact silicon solar cells ap...
A Simple way to improve solar cell efficiency is to enhance the absorption of light and reduce the s...
The development of cost-effective and highly efficient solar cells is a primary goal of current rese...
To ensure that photovoltaics contributes significantly to future world energy production, the cost p...
Screen-printing technique is used since 1970’s, but the understanding of screen printed contacts is ...
A dispensing process was developed, allowing for a single step, contactless front side metallization...
In today's market, crystalline silicon wafer technology dominates industrial solar cell production. ...
An alternative metallization scheme for c-Si solar cells other than Ag screen printing, has gained i...
AbstractIn the photovoltaic industry, screen printing accounts for majority of the metallisation pro...
Abstract: Surface recombination loss should be reduced for high efficiency of solar cells. To reduce...