Characterization and measurements The sample morphologies were examined by field emission scanning electron microscopy (FESEM) with a Hitachi S-4800 microscope (Dallas, TX, USA). The crystal structures of ZnO and ZnSe in the samples were characterized by X-ray diffraction (XRD) with a Rigaku D/MAX 2550 VB/PC X-ray diffractometer (Shibuya, Tokyo, Japan) using Ni-filtered Cu Kα radiation (λ = 0.15406 nm). Fourier-transform infrared (FTIR) spectroscopy and Raman
scattering spectroscopy were also used to characterize the structures of Gemcitabine ZnO and ZnSe through vibrational mode analysis and phase identification. FTIR spectroscopy was carried out with a Bruker Vertex 80 V spectrometer (Saarbrucken, SL, Germany). Raman measurements were performed with a Jobin-Yvon LabRAM HR 800 UV micro-Raman spectrometer (Villeneuve d’Ascq, France) using a 488-nm Ar+ laser beam or 325-nm He-Cd laser beam as the exciting INCB28060 concentration sources. The photoluminescence (PL) of the samples was measured by exciting the samples with 325-nm laser light from a continuous wave He-Cd laser at room temperature to examine the influences of the ZnSe shells on the luminescence from the ZnO cores. The luminescence was detected by an intensified charge-coupled device (ICCD) (iStar DH720, Andor Technology, Belfast, UK) after being dispersed by a 0.5-m spectrometer
(Spectra Pro 500i, Acton Research, Acton, MA, USA). The optical properties were also characterized by comparing the optical transparency of ZnO/ZnSe Gemcitabine supplier core/shell NRs with that of bare ZnO NRs. The transmission spectra of the bare ZnO NRs and
the ZnO/ZnSe core/shell NRs prepared on transparent fused silica plates were measured in the UV-near IR range using a Shimutsu UV3101PC Photo-Spectrometer (Nakagyo, Kyoto, Japan). Results and discussion Morphology The FESEM images in Figure 1 illustrate the morphologies of the samples. As shown in Figure 1a for sample A, the bare ZnO NRs grew almost vertically on the substrate, nearly in the shape of hexagonal prisms with a mean diameter of approximately 60 nm and an average length of approximately 1 μm. As will be described below, structural characterization reveals that the hydrothermally grown ZnO NRs are hexagonal wurtzite in crystal structure with P505-15 chemical structure preferentially c-axis-oriented growth. After the deposition of ZnSe whether at RT or at 500°C, the NRs increase in diameter with rough surfaces (Figure 1b,c), indicating the covering of the ZnO rods with ZnSe shells. However, the NRs in sample B show larger diameters and rougher surfaces than the NRs in sample C. The NRs in sample B are connected together at the rod tips and near the top surfaces, while those in sample C are generally separated from each other from the top to the bottom.