Structural Properties of Hybrid Nanoparticle/Polymer Composites for Solar Energy Devices

Hybrid nanoparticle/polymer composites are promising materials for solar energy applications, because the structural properties of these materials can be manipulated at the relevant nanometer length scales to improve device performance. X-ray scattering measurements coupled with modeling and computer simulation present a powerful framework for characterizing the self-assembled morphologies of these nanostructured materials at the appropriate length scales. We examine herein nanoscale structure and ordering in candidate hybrid nanoparticle/polymer photovoltaics using modeling and simulation. Simulations based closely on X-ray scattering data of these nanocomposite films are performed to probe the underlying structure in these materials. The resulting structural models and aspects of the simulations will be discussed.