Size and Shape Control of Metal Nanoparticles for Reaction Selectivity in Catalysis

Abstract A nanoparticle with well‐defined surfaces, prepared through colloidal chemistry, enables it to be studied as a model heterogeneous catalyst. The colloidal synthetic approach provides versatile tools to control the size and shape of nanoparticles. Traditional nucleation and growth mechanisms have been utilized to understand how nanoparticles can be uniformly synthesized and unprecedented shapes can be controlled. Now, the size of metal particles can be controlled to cluster regimes by using dendrimers. By using seeds and foreign atoms, specific synthetic environments such as seeded growth and crystal overgrowth can be induced to generate various shaped mono‐ or bi‐metallic, core/shell, or branched…

• UD
  U.S. Department of Energy
• BE
  Basic Energy Sciences