Add to ORKGIn this paper an optimization study for the oxide passivated selective emitter of high-efficiency Silicon solar cells is presented. Results of solar cells with different emitter profiles are compared with measurements of the dark saturation current determined at test structures, which have been processed in parallel. Especially the combined effect of process parameters and surface morphology (e.g. inverted pyramids) is investigated. It was found that optimizations for untextured surfaces can not be directly transferred to textured surfaces. Within this study efficiencies up to 22.3 % have been reached
The combination of Rapid Thermal Processing (RTP) and Screen Printing (SP) of phosphorus pastes has ...
We have developed a simple and industrially applicable selective emitter cell process using only one...
AbstractIn this work we report on successful direct contacting of high sheet resistance (RSH) emitte...
We present a comparison of solar cells featuring homogeneous and selective emitters on devices with ...
A systematic experimental study is presented that aims at the optimization of the emitter of high-ef...
The mesh‐structured emitter solar cell (MESC) is introduced as a novel solar cell processing scheme....
This work focuses on studying two types of structure: homogeneous and double-diffused emitter silico...
Considering recent modifications on n-type highly doped silicon parameters, an emitter optimization ...
The theoretical and experimental open-circuit voltage optimizations of a simple fabrication process ...
Current industrial monocrystalline Cz Si solar cells based on screen-printing technology for contact...
In this paper we present latest results in the development of a process for the fabrication of a sel...
High efficiency silicon solar cells generally require sophisticated and complex processing sequences...
In this paper we present latest results in the development of a process for the abrication of a sel...
Control of the oxidation process is one key issue in producing high-quality emitters for crystalline...
Optical losses at the front surface of a silicon solar cell have a significant impact on efficiency,...
The combination of Rapid Thermal Processing (RTP) and Screen Printing (SP) of phosphorus pastes has ...
We have developed a simple and industrially applicable selective emitter cell process using only one...
AbstractIn this work we report on successful direct contacting of high sheet resistance (RSH) emitte...
We present a comparison of solar cells featuring homogeneous and selective emitters on devices with ...
A systematic experimental study is presented that aims at the optimization of the emitter of high-ef...
The mesh‐structured emitter solar cell (MESC) is introduced as a novel solar cell processing scheme....
This work focuses on studying two types of structure: homogeneous and double-diffused emitter silico...
Considering recent modifications on n-type highly doped silicon parameters, an emitter optimization ...
The theoretical and experimental open-circuit voltage optimizations of a simple fabrication process ...
Current industrial monocrystalline Cz Si solar cells based on screen-printing technology for contact...
In this paper we present latest results in the development of a process for the fabrication of a sel...
High efficiency silicon solar cells generally require sophisticated and complex processing sequences...
In this paper we present latest results in the development of a process for the abrication of a sel...
Control of the oxidation process is one key issue in producing high-quality emitters for crystalline...
Optical losses at the front surface of a silicon solar cell have a significant impact on efficiency,...
The combination of Rapid Thermal Processing (RTP) and Screen Printing (SP) of phosphorus pastes has ...
We have developed a simple and industrially applicable selective emitter cell process using only one...
AbstractIn this work we report on successful direct contacting of high sheet resistance (RSH) emitte...