Study of Dislocations in the Minicrystallized Regions in Multicrystalline Silicon Grown by the Directional Solidification Method

Abstract: Directionally solidified multicrystalline silicon (mc-Si)-based solar cells have dominated the global photovoltaic market in recent years. The photovoltaic performance of mc-Si solar cells is strongly influenced by their crystalline defects. The occurrence of minicrystallization results in much smaller grain size and, therefore, a larger number of grain boundaries in mc-Si ingots. Dislocations in the minicrystallized regions have been rarely investigated in the literature. In this work, optical microscopy was … Show more

“…Their attraction, repulsion and rearrangement in more stable and lower energy configurations are thermodynamically favored. This phenomenon is amplified when external forces, such as thermo-mechanical stresses, exist [12]. Chikawa [13] studied in-situ, at the melting point (T m ), dislocations interacting with the growth front perpendicularly.…”

Dynamic observation of dislocation evolution and interaction with twin boundaries in silicon crystal growth using in – situ synchrotron X-ray diffraction imaging

“…Their attraction, repulsion and rearrangement in more stable and lower energy configurations are thermodynamically favored. This phenomenon is amplified when external forces, such as thermo-mechanical stresses, exist [12]. Chikawa [13] studied in-situ, at the melting point (T m ), dislocations interacting with the growth front perpendicularly.…”

Dynamic observation of dislocation evolution and interaction with twin boundaries in silicon crystal growth using in – situ synchrotron X-ray diffraction imaging