With the development of semiconductor science and technology, various devices have been widely used in our daily life. The invention of memory components, providing functions such as memory and random-access, facilitates the electronic products more convenience. Several processes for flash memory and logic devices are complicate. The polarity control is especially difficult for the manufacturing level which requires significant strictly process control. In order to avoid memory leakage problem, the use of silicon nitride (Si3N4) spacer design enhances its insulation behavior and ensures device reliability. However, the adsorption of polymeric residue degrades the reliability and reduces the manufacturing yield. This study aims to develop two methods to avoid the residual defects and improve manufacturing quality, reliability and yield of wafers. After plasma etching from ion bombardment, the exposed layer of oxide on the surface will exhibit roughness. Roughly surface will adsorb polymer residue defects from the traditional clean tank system. In addition, the use of O2 plasma restores the intact of pre-damage oxidation layer. Therefore, this mean decreases the rough problem. Moreover, the use of sequencial SPM and APM, instead of only SPM, is another effective way to remove polymer like defects.