Conductive ceramic films, such as zinc oxide (ZnO) thin film, will likely be utilized as core semiconducting materials for applications for the Internet of Things (IoT). This study focussed on a nonequilibrium excitation reaction field as a bottom-up architecture and successfully found the basis for a technology using a plasma atmosphere and a planar homogeneous electron beam as a nonequilibrium reaction field. The ZnO thin film obtained in this study exhibited a high Hall mobility of 128.3 cm²/Vs even though it was formed on a PET film substrate at room temperature. This achievement contributes toward clarifying the mechanism behind the fabrication of highly functional oxide thin films by a two-dimensional simple process without using thermal treatment. Moreover, this technique will also enable the provision of elements for the next-generation nanodevices with highly functional properties using complexes of metals, ceramics, and semiconductors.