Noble-Metal Nanocrystals with Controlled Shapes for Catalytic and Electrocatalytic Applications

The successful synthesis of noble-metal nanocrystals with controlled shapes offers many opportunities to not only maneuver their physicochemical properties but also optimize their figures of merit in a wide variety of applications. In particular, heterogeneous catalysis and surface science have benefited enormously from the availability of this new class of nanomaterials as the atomic structure presented on the surface of a nanocrystal is ultimately determined by its geometric shape. The immediate advantages may include significant enhancement in catalytic activity and/or selectivity and substantial reduction in materials cost while providing a well-defined model system for mechanistic study. With a focus on the monometallic system, this review article provides a comprehensive account of recent progress in the development of noble-metal nanocrystals with controlled shapes, in addition to their remarkable performance in a large number of catalytic and electrocatalytic reactions. We hope that this review article offers the impetus and roadmap for the development of next-generation catalysts vital to a broad range of industrial applications.

Automated summary

The successful synthesis of noble-metal nanocrystals with controlled shapes has provided opportunities for manipulating their physicochemical properties and optimizing their advantages in various applications. Particularly in heterogeneous catalysis and surface science, the availability of these new nanomaterials has led to significant enhancements in catalytic activity and/or selectivity, as well as reduction in materials cost.