In this paper, the effects of volume of NH₄F in HNO₃:DIW:NH₄F mixture to the etch rate and etch selectivity of poly-Si and SiO₂ were studied. The roughness of SiO₂ film after poly-Si etched and removed was investigated. By using poly-Si etching with 150:80:5 vol. ratio for 3 mins, the oxide surface roughness after poly-Si removed has increased from 3.1 to 10.5 nm. The high oxide roughness induced by wet etching posing treat to fusion bonding of MEMS pressure sensor. By using the poly-Si etchant of 150:80:4 vol. ratio, the poly-Si etch rate of 1847 A°/min and higher etch selectivity between poly-Si and SiO₂ of 29.4 were obtained. Therefore, the suppression of oxide surface roughness by using high selectivity poly-Si etchant is able to improve the performance of fusion bonding for MEMS pressure sensor devices.