Nanomaterials

Nanoparticulate functional materials offer manifold perspectives for the increasing miniaturization and complexity of technical developments. Nanoparticles also make a major contribution to utilization of materials that is sparing of natural resources. Besides these obvious aspects, however, the importance of nanoparticles is due to their fundamentally novel properties and functions. These range from photonic crystals and efficient luminophors, single particles and thin films for electronic storage media and switching elements, magnetic fluids and highly selective catalysts, a wide variety of possibilities for surface treatments, novel materials and concepts for energy conversion and storage, contrast agents for molecular biology and medical diagnosis, to fundamentally novel forms and structures of materials, such as nanocontainers and supercrystals. Creating high-quality nanoparticles requires numerous parameters, involving particle core and surface, colloidal properties, and particle deposition, to be taken into consideration already during synthesis of the material. An appropriate characterization and evaluation of the properties requires the incorporation of a wide range of knowledge from widely differing areas. These circumstances are what challenges and appeals to the “nanoscientist”.

(see Reviews in: Angew. Chem. 2010, 122, 1402; Angew. Chem. Int. Ed. 2010, 49, 1362 as well as Chem. Unserer Zeit 2010, 44, 14.)

 

 


 

Fig.1: The size of nanomaterials in comparison to other structures on the length scale.