Challenges in sample preparation for semiconductor failure analysis are always increasing as more complex material and smaller dimensions are required to meet the needs of the semiconductor industry. These changes require the constant need for more refined procedures in all areas of sample preparation, including mechanical polish. This paper presents a newly modified technique which increases the planarity at the critical edge of the sample and results in a larger planar region of interest. The novel method combines both a blocked reactive ion etching and a standard planar polish. It has proven to be a successful delayering technique and helpful in facilitating further analysis. This method has been verified on dies, wafer pieces, and dies thinned and attached to blank silicon for support. It is useful for increasing overall planarity and particularly helpful for the extreme edge.