Add to ORKGThe defect structure of processed edge defined film-fed growth (EFG) silicon ribbons was studied using a variety of electron microscopic techniques. Comparison between the present results and previous studies on as-grown ribbons has shown that solar cell processing introduces additional defects into the ribbons. The creation of point defects during high temperature phosphorus diffusion induces dislocation climb, resulting in the formation of dislocation helices in the diffused layer
Continuous growth methodology for silicon solar cell ribbons deals with capillary effects, die effec...
The results of a preliminary study of two dendritic web samples are presented. The structure and ele...
The Flat-plate Solar Array (FSA)-sponsored Fourth Silicon Stress/Strain Workshop reviewed, coordinat...
Electron bombardment induced conductivity and scanning transmission electron microscopy observations...
Transmission electron microscopy was used to investigate the defect structure of edge defined film g...
Optical, electron beam induced current (EBIC), and transmission electron microscopy were used to stu...
A set of computer models was used to define a growth system configuration that was then built and us...
Some background information on intrinsic point defects is provided and on carbon and oxygen in silic...
Progress in a program to produce high speed, thin, wide silicon sheets for fabricating 10% efficient...
Temperature profiles for silicon ribbon are presented. Ribbon dislocations and elastic stress are di...
Changes in the contrast and resolution of defect structures in 205 Ohm-cm EFG polysilicon ribbon sub...
Edge-defined film-fed growth (EFG) is an economical method of producing multicrystalline silicon rib...
Ribbon Growth on Substrate (RGS) is a cost-effective method to produce silicon wafers directly from ...
Electrical characterization of defects induced in FZ and CZ silicon stress in four-point bending abo...
Experimental techniques for the preparation of electron beam induced current samples of Web-dentriti...
Continuous growth methodology for silicon solar cell ribbons deals with capillary effects, die effec...
The results of a preliminary study of two dendritic web samples are presented. The structure and ele...
The Flat-plate Solar Array (FSA)-sponsored Fourth Silicon Stress/Strain Workshop reviewed, coordinat...
Electron bombardment induced conductivity and scanning transmission electron microscopy observations...
Transmission electron microscopy was used to investigate the defect structure of edge defined film g...
Optical, electron beam induced current (EBIC), and transmission electron microscopy were used to stu...
A set of computer models was used to define a growth system configuration that was then built and us...
Some background information on intrinsic point defects is provided and on carbon and oxygen in silic...
Progress in a program to produce high speed, thin, wide silicon sheets for fabricating 10% efficient...
Temperature profiles for silicon ribbon are presented. Ribbon dislocations and elastic stress are di...
Changes in the contrast and resolution of defect structures in 205 Ohm-cm EFG polysilicon ribbon sub...
Edge-defined film-fed growth (EFG) is an economical method of producing multicrystalline silicon rib...
Ribbon Growth on Substrate (RGS) is a cost-effective method to produce silicon wafers directly from ...
Electrical characterization of defects induced in FZ and CZ silicon stress in four-point bending abo...
Experimental techniques for the preparation of electron beam induced current samples of Web-dentriti...
Continuous growth methodology for silicon solar cell ribbons deals with capillary effects, die effec...
The results of a preliminary study of two dendritic web samples are presented. The structure and ele...
The Flat-plate Solar Array (FSA)-sponsored Fourth Silicon Stress/Strain Workshop reviewed, coordinat...