Comparing to other type of casting silicon, n-type mono-like casting silicon has advantages of high solar cell efficiency and low cost. But it needs to control the resistivity, monocrystalline area and defect formation during crystal growth. We studied the results of monocrystalline area control and defect control. For monocrystalline area control, we could obtain convex growth interface by improving the insulation of the crucible sidewall. Σ5 GB, which was obtained from arrangement manually at the outer ring of the seed, successfully suppressed the grains nucleated at the crucible sidewalls. By combining these two conditions, we could increase the monocrystalline region and obtain 93% of monocrystalline ratio on top of the ingot. For defect control, the first experiment of the seed arrangement was stacking two (100) seeds while keeping the initial growth front across the seed junction. In the second experiment, the seeds were rearranged from the nine sectors cut from a (100) seed, while keeping a round seed at the center, so different tilt angles between seed sectors were from 0 o to 40o. We further observed the evolution of dislocations near grain boundaries (GBs) and triple junctions (TJs). Our results revealed that the defects generated easily from the 0° GBs regardless of the seed gaps. However, no significant defects generated near the overcut region (Σ1). On the contrary, the large angle GBs (10° to 40° GBs) had little influence on the defect generation. 10° GB (non-Σ), low symmetrical 20° GB (Σ13a+ Σ37a) and 30° GB (Σ17a) resulted in lower dislocation density compared to high symmetrical 40° GB (Σ5), and the optimum tilt angle was around 20°. Gettering and passivation was further performed for the wafers. The high lifetime was obtained except near the 0° seed junction, and the highest lifetime was greater than 3 ms. Furthermore, dislocation density of GBs in TJs were lower than the one away from TJs. The existence of high symmetrical GBs at the TJs resulted in higher dislocation density nearby the rest of GBs at the TJs.