The study of this thesis is to fabricate nonpolar zinc oxide (ZnO). To avoid quantum confined Stark effect (QCSE), we choose nonpolar ZnO as the intermediate layer between GaN and a substrate. In this thesis, we use a convenient solution process that is hydrothermal method to grow nonpolar ZnO. By using scanning electron microscopy (SEM) to observe the structure of ZnO. X-ray diffraction (XRD) is adopted to confirm whether ZnO has nonpolar orientation. We first fabricate a periodic array of Si etching grooves. Sol-gel and hydrothermal method are used to grow ZnO on Si etching grooves. After removing the gold layer and the polar ZnO in the same time, we present the ZnO with nonpolar face on the top. However, the contact area between the gold layer and three potassium iodine solution is little. Part of gold layer still remains on the sample. Therefore, an improved method is proposed. The original method is to deposit gold layer first. The improved method is to spin coat ZnO seed layer first. Then, to deposit the gold layer. It is two advanages. One, inverted column is grown outside the grooves. The more interspace higher the rate of removing gold. The other, seed layer is coated on the sidewall of the grooves, and the gold layer is deposited on the bottom. The only horizontal ZnO is growed. However, it is two shortcomings of the modified method. First, when the growth time of hydrothermal method is higher than 3 hours, the inverted column will not be lift off. Second, twice removing gold process is adopted to merge the ZnO in the grooves. Minaret structure of ZnO appear. Therefore, reactive ion etching (RIE) is used to remove minaret structure along the vertical direction. It is unable to achieve large area of production. Fianally, inductively-coupled plasma reactive ion etching (ICP-RIE) is used to remove ZnO outside the grooves. It appear apparent crystalline phase of a-ZnO from XRD measurement. RIE is used to etch Si. Hydrothermal method is adopted to fill the whole plane. After c-plane ZnO is removed by ICP-RIE, the whole plane nonpolar ZnO is completed. Also, the whole plane nonpolar ZnO is completed on glass substrate. Without the epitaxy process, the more convenient method is adopted to fabricate nonpolar ZnO of whole plane. Also, ZnO thin film transistor is finished. The field effect mobility is 4.269 cm2/V-s.