In recent years, with advancements in electrospinning technology, simple and easy manufacturing equipment has become a crucial characteristic of nanofiber fabrication. The improved ease of creating fibers with high specific surface area increased the likelihood of developing superior gas sensors. This study uses electrospinning technology to develop a gas sensor with high sensitivity and reproducibility under average temperature conditions. In this study, PVP was used as the principal material for nanofiber fabrication. The PVP containing mixed polymer composite PEDOT / PSS that provide fibers with electrical conductivity enables their use as sensors. In addition, various proportions of organic solvents (DMSO) were added to increase the sensitivity and reproducibility of sensors. Experiments using the electrospinning method were conducted to produce gas-sensing elements with various wire diameters and DMSO ratios. The sensing characteristics were also tested. The results generated were: gas sensors with a small wire diameter had higher sensitivity toward low concentrations of ethanol gas, while gas sensors with a large wire diameter had superior durability. The addition of an appropriate proportion of DMSO not only increased the sensitivity and response/recovery time of gas sensors during ethanol gas detection, but also increased the durability of sensors for gas to test. Therefore, DMSO contributed to improving the performance of gas sensors.