Add to ORKGSilicon wafers for photovoltaics could be produced without kerf loss by rolling, provided sufficient control of defects such as dislocations can be achieved. A study using mainly high resolution electron backscatter diffraction (HR‐EBSD) of the microstructural evolution of Siemens polycrystalline silicon feedstock during a series of processes designed to mimic high temperature rolling is reported here. The starting material is heavily textured and annealing at 1400 °C results in 90% recrystallization and a reduction in average geometrically necessary dislocation (GND) density from >1014 to 1013 m−2. Subsequent compression at 1150 °C – analogous to rolling – produce sub‐grain boundaries seen as continuous curved high GND content linear fe...
Approximately 50% of solar cells are based on multicrystalline silicon (mc-Si). A major limiting fac...
Gettering and passivation steps during solar cell processing influence the recombination activity of...
In this work the dislocation formation in the seed crystal induced by feedstock indentation during t...
Silicon wafers for photovoltaics could be produced without kerf loss by rolling, provided sufficient...
Silicon wafers for photovoltaics could be produced without kerf loss by rolling, provided sufficient...
This thesis presents a feasibility study for producing silicon sheet for photovoltaic applications v...
Grain size, grain boundary population, orientation distribution and lattice defects of polycrystalli...
Directionally solidified multicrystalline silicon (mc-Si)-based solar cells have dominated the globa...
Dislocations and dislocation networks in multi-crystalline (mc) silicon wafers for photovoltaic appl...
This work is concerned with the study and explanation of a peculiar phenomenon that can be observed ...
Wafers from three heights and two different lateral positions (corner and centre) of four industrial...
Multicrystalline silicon wafers are used for approximately half of all solar cells produced at prese...
Polycrystalline sheets (standard size: 100 mm x 200 mm) for solar cells are grown from silicon powde...
The silicon material for photovoltaic (PV) industry demands high quality. It is known that dislocati...
[[abstract]]This paper describes the grain formation in very low temperature polycrystalline silicon...
Approximately 50% of solar cells are based on multicrystalline silicon (mc-Si). A major limiting fac...
Gettering and passivation steps during solar cell processing influence the recombination activity of...
In this work the dislocation formation in the seed crystal induced by feedstock indentation during t...
Silicon wafers for photovoltaics could be produced without kerf loss by rolling, provided sufficient...
Silicon wafers for photovoltaics could be produced without kerf loss by rolling, provided sufficient...
This thesis presents a feasibility study for producing silicon sheet for photovoltaic applications v...
Grain size, grain boundary population, orientation distribution and lattice defects of polycrystalli...
Directionally solidified multicrystalline silicon (mc-Si)-based solar cells have dominated the globa...
Dislocations and dislocation networks in multi-crystalline (mc) silicon wafers for photovoltaic appl...
This work is concerned with the study and explanation of a peculiar phenomenon that can be observed ...
Wafers from three heights and two different lateral positions (corner and centre) of four industrial...
Multicrystalline silicon wafers are used for approximately half of all solar cells produced at prese...
Polycrystalline sheets (standard size: 100 mm x 200 mm) for solar cells are grown from silicon powde...
The silicon material for photovoltaic (PV) industry demands high quality. It is known that dislocati...
[[abstract]]This paper describes the grain formation in very low temperature polycrystalline silicon...
Approximately 50% of solar cells are based on multicrystalline silicon (mc-Si). A major limiting fac...
Gettering and passivation steps during solar cell processing influence the recombination activity of...
In this work the dislocation formation in the seed crystal induced by feedstock indentation during t...