Physico-Chemical Effects on the Scale-Up of Ag Photodeposition on TiO2 Nanoparticles Academic Article uri icon

abstract

  • We have previously demonstrated that TiO2 nanoparticles can be functionalized by photodeposition with silver or gold particles in the 1-2 nm range presumed to be desirable for catalysis applications. However, the preparation of these samples directly on microscope grids, while conducive to particle size determinations, did not produce sufficient materials for reaction studies. We report here scale-up techniques designed to produce greater quantities of material for testing, while maintaining characteristics that contribute to uniformity in the deposition process. For the scale-up process, an irradiation source with highly uniform intensity is necessary to generate Ag/TiO2 samples with consistent Ag loading. In addition, control of the precursor concentration is also required to produce Ag/TiO2 samples with high Ag loading and narrow Ag size distribution. The optimum conditions for the scale-up process found in this study involved Ag photodeposition from a 5 10-3 M AgNO3 solution using a high pressure Hg lamp at 366 nm for 60 s. Under these reaction conditions, the size of Ag particles determined by TEM and HAADF-STEM imaging was within 1-2 nm and the Ag loading was ~3.2 wt%. Achievement of this level of uniformity required control of the uniformity of illumination, as well as of the solution concentration and irradiation conditions. Higher solution concentrations and higher power led to the growth of larger (ca. 10 nm) silver particles. In contrast, the loading and size distribution of the Ag particles photodeposited were remarkably insensitive to the source and morphology of the TiO2 nanoparticles utilized. No Ag peak was resolved in the XRD patterns for Ag/TiO2 samples obtained from the optimized scale-up process, corroborating the size range determination of the Ag nanoparticles. XPS showed that the Ag particles in all cases were metallic Ag. 2011 Springer Science+Business Media, LLC.

published proceedings

  • TOPICS IN CATALYSIS

author list (cited authors)

  • Chan, S. C., & Barteau, M. A.

citation count

  • 5

complete list of authors

  • Chan, Sze Chi||Barteau, Mark A

publication date

  • April 2011