In the recent rechargeable battery industry, lithium sulfur batteries (LSBs) have demonstrated promising candidate battery to serve as the next-generation secondary battery owing to its enhanced theoretical specific energy, economy, and environmental friendliness. Its inferior cyclability, however, which is primarily due to electrode deterioration caused by the lithium polysulfide shuttle effect, is still a major problem for the real industrial usage of LSBs. Optimization of the separator and functional barrier layer is an effective strategy for remedying these issues. In this article, the current progress based on classification and modification on functional separator is summarized. We will also describe their working mechanisms as well as the resulting LSB electrochemical properties. In addition, necessary performance for separators also will be mentioned in order to gain optimized LSB performance.