In this thesis,the morphology, and optical properties of theZnO nanowires grown by chemical vapor deposition (CVD) under different growth conditions were investigated with different growth condition. For ZnO nanowires grown on Si (100), the growth mode is Volmer-Weber mode (VW-mode) due to the large lattice misfit (>30%) between ZnO and substrate. In the process of growth, the furnace was heated up to 950oC by flowing Ar with a flow rate of 100 sccm. From SEM images show that the diameter of nanowires were about 100nm. The length of nanowires were about 15 micrometer. The ZnO nanowires were grown by chemical vapor deposition(CVD) on Si substrate with employing Au as catalyst , the growth mode is vapor-liquid-solid (VLS) method . PL spectrum of ZnO nanowires grown with Au catalyst exhibits a strong defect-related deep-level emission. The ZnO nanowires grown on GaN template were vertically well-aligned with 0.5-μm-thick wetting layer. Thus, the growth mode is attributed to Stranski – Krastanow mode. The ZnO nanowires grown on the GaN template have preferred growth orientation along the c-axis. From SEM images show that the diameter of nanowires were about 100nm. The length of nanowires were about 10 micrometer. ZnO nanowires diffused with europium (Eu) are studied. The ZnO nanowires were grown by chemical vapor deposition(CVD) on Si substrate with employing Au as catalyst. Photoluminescence spectra of as-grown and Eu-diffused ZnO nanowires excited by a He-Cd laser at room temperature exhibit near-band-edge emission and green luminescence. In this work, the relative intensity of band gap and defect emission (green light) changes drastically in Eu:ZnO and ZnO nanostructures. Our results suggest that the rare earth most likely affects