Presently, there is an intense race throughout the world to develop good enough thermoelectric materials which can be used in wide scale applications. This book focuses comprehensively on very recent up-to-date breakthroughs in thermoelectrics utilizing nanomaterials and methods based in nanoscience. Importantly, it provides the readers with methodology and concepts utilizing atomic scale and nanoscale materials design (such as superlattice structuring, atomic network structuring and properties control, electron correlation design, low dimensionality, nanostructuring, etc.). Furthermore, also indicates the applications of thermoelectrics expected for the large emerging energy market. This book has a wide appeal and application value for anyone being interested in state-of-the-art thermoelectrics and/or actual viable applications in nanotechnology.

Increasing awareness and concern for energy resources and the environment have stimulated significant advances in materials and technology for energy conversion in recent years. This volume, the ninth in a popular series, focuses on novel materials, materials processing and device technologies for direct thermal-to-electric energy conversion, and emphasizes the interdisciplinary nature of research needed to advance the field. The volume begins with an overview of the state of the art in high-temperature thermoelectric materials by Harald Bottner. The section on nanocomposite materials includes an overview on bulk nanostructured materials, one of the most highly investigated areas in the thermoelectric community, by Mildred Dresselhaus. A third overview article, by Peter Rogl, addresses the potential of inverse clathrates for thermoelectric applications. Additional topics include: applications and devices; nanocomposite and nanostructured materials; theoretical investigations; bulk materials and oxide materials."

Presently, there is an intense race throughout the world to develop good enough thermoelectric materials which can be used in wide scale applications. This book focuses comprehensively on very recent up-to-date breakthroughs in thermoelectrics utilizing nanomaterials and methods based in nanoscience. Importantly, it provides the readers with methodology and concepts utilizing atomic scale and nanoscale materials design (such as superlattice structuring, atomic network structuring and properties control, electron correlation design, low dimensionality, nanostructuring, etc.). Furthermore, also indicates the applications of thermoelectrics expected for the large emerging energy market. This book has a wide appeal and application value for anyone being interested in state-of-the-art thermoelectrics and/or actual viable applications in nanotechnology.

Increasing awareness and concern for energy resources and the environment have stimulated significant advances in materials and technology for energy conversion in recent years. This volume, the ninth in a popular series, focuses on novel materials, materials processing and device technologies for direct thermal-to-electric energy conversion, and emphasizes the interdisciplinary nature of research needed to advance the field. The volume begins with an overview of the state of the art in high-temperature thermoelectric materials by Harald Bottner. The section on nanocomposite materials includes an overview on bulk nanostructured materials, one of the most highly investigated areas in the thermoelectric community, by Mildred Dresselhaus. A third overview article, by Peter Rogl, addresses the potential of inverse clathrates for thermoelectric applications. Additional topics include: applications and devices; nanocomposite and nanostructured materials; theoretical investigations; bulk materials and oxide materials.