Modeling, Characterization and Production of Nanomaterials: Electronics, Photonics and Energy Applications (Woodhead Publishing Series in Electronic and Optical Materials)

The unique electronic, optical, and chemical properties of nano-scale materials have made them central to a new generation of devices, and nanomaterial simulation tools have proven crucial to the success of the semiconductor industry. Modeling, characterization, and production of nanomaterials reviews a range of modeling techniques used to simulate nanomaterial behavior, in addition to production methods and characterization techniques.

Part One provides an overview of the key modeling techniques for nanomaterials, before Part Two goes on to explore nanomaterial characterization techniques, including diffraction techniques, thermal analysis, raman spectroscopy and molecular simulation. The structure and properties of nanomaterials, based on modeling and its experimental applications, are then discussed in Part Three. Finally, the book concludes in Part Four with a discussion of nanofabrication and nanodevice modeling and applications, including doping, energy storage, catalysis applications, tuning luminescence, nanorod heterostructures and graphene photonic structures, in addition to atomistic modeling, superlattices and plasma deposition.