An oligomer solution was prepared from methyltriethoxysilane with HNO3 catalyst. Aluninum acetylacetonate was introudced into the solution to eliminate crystalline precipitates (CH3SiO3/2)8. Self-sustained film was attempted by dropping the solution onto an aqueous solution, into which NaCl was added to elevate the solution density. The film formation greatly depended both on the reaction time and on the supporting solution. The structure of the film thus obtained was investigated by FTIR attenuated total reflectance spectroscopy. 相似文献
A new radiochromic thin film dosimeter has been developed for use in radiation processing. The dosimeter's properties are similar to those of the commercially available FWT-60-00 Radiochromic Detectors with three key differences: 1) a lower sensitivity allows reading the optical density at the peak of the absorbtion spectrum (ca. 600 nm) for absorbed doses to over 50 kGy, 2) a radiation-insensitive dye additive allows for automatic thickness correction, and 3) another additive extends to higher doses the agreement between gamma and E-beam calibrations. The dosimeter is analyzed for its sensitivity, temperature and humidity dependencies, stability, reproducibility, and agreement of gamma and E-beam calibrations. 相似文献
A new methodology for creating patterned fluorescence images was developed based on acrylate polymers that have pendant triphenylmethane derivatives as precursor fluorophores. Photoinduced oxidation of the substituted nonfluorescent triphenylmethane substituents on the polymers results in the generation of fluorescent cationic species. Patterned fluorescence images were obtained when the polymer film was subjected to photomasked UV‐irradiation. The rate of formation and quality of the patterned images were found to be dependent on the nature of substituents on the methane carbon of the triphenylmethane group. Inefficient image formation takes place with the polymer derived from the H‐substituted derivative owing to the inefficient oxidation of the triphenylmethane group. In contrast, photomasked UV‐irradiation of a thin polymer film derived from the CN‐substituted triphenylmethane derivative leads to fast (1 s irradiation, 12 mW · cm−2) and finely resolved patterned fluorescence images.
In the present work, an alternative to the traditional sol-gel method is reported. The gel is deposited on a wide flat glassy surface so that a very thin film of solid is obtained after evaporation of the solvent. The yttria-stabilized zirconia powders are recovered by removing the referred film from the glassy surface and subsequent milling. The samples have been characterized by Scanning Electron Microscopy (SEM), nitrogen adsorption at −196 °C and Fourier Transform Infrared (FT-IR) spectroscopy. The experimental results show that the 3 mol% yttria-stabilized zirconia (3YSZ) powders prepared by drying of thin films at 100 °C exhibit extremely low values of specific surface area and pore volumes. Furthermore, the proportion of solvent or the type of alcohol used in the preparation of the powders play a very important role in the textural properties of the 3YSZ powders. In this connection, for samples prepared by varying the propanol proportion an increase in the volume of this solvent leads to larger values of specific surface area and pore volumes. On the other hand, an increase in the molecular size of the alcohol used as the solvent leads to a noticeable development of the textural parameters. 相似文献