3 edition of Thermoelectric materials 2001--research and applications found in the catalog.
Thermoelectric materials 2001--research and applications
Includes bibliographic references and indexes.
|Statement||editors: George S. Nolas, David C. Johnson, David G. Mandrus.|
|Series||Materials Research Society symposium proceedings ;, v. 691, Materials Research Society symposia proceedings ;, v. 691.|
|Contributions||Nolas, G. S. 1962-, Johnson, David C., Mandrus, David G., Materials Research Society. Meeting|
|LC Classifications||TK2950 .T4825 2002|
|The Physical Object|
|Pagination||xiv, 468 p. :|
|Number of Pages||468|
|LC Control Number||2002281993|
Part of the Fundamental Materials Research book series (FMRE) Abstract. The goal of this workshop on thermoelectric materials “Beyond Bismuth Telluride” was to inspire researchers in the thermoelectrics field to think boldly about the future of Thermoelectrics Science and Technology and to identify what it would take to make a big step Cited by: 2. Advances and Applications. Thermoelectric Materials. DOI link for Thermoelectric Materials. Thermoelectric Materials book. Advances and Applications. Edited By Enrique Macia. Edition 1st Edition. First Published eBook Published 5 May Pub. location New York. Imprint Jenny Stanford by:
Basic Principles of Thermoelectric Modules & Materials. THERMOELECTRIC MATERIALS: The thermoelectric semiconductor material most often used in today’s TE coolers is an alloy of Bismuth Telluride that has been suitably doped to provide individual blocks or elements having distinct “N” and “P” characteristics. Thermoelectric materials most often are fabricated by either. A thermoelectric device includes a nanocomposite material with nanowires of at least one thermoelectric material having a predetermined figure of merit, the nanowires being formed in a porous substrate having a low thermal conductivity and having an average pore diameter ranging from about 4 nm to about nm. Lightweight, high-frequency.
Organic materials have been found to be promising candidates for low-temperature thermoelectric applications. In particular, poly (3-hexylthiophene) (P3HT) has been attracting great interest due to its desirable intrinsic properties, such as excellent solution processability, chemical and thermal stability, and high field-effect mobility. The first book of its kind?providing comprehensive information on oxide thermoelectrics This timely book explores the latest research results on the physics and materials science of oxide thermoelectrics at all scales. It covers the theory, design and properties of thermoelectric materials as well as fabrication technologies for devices and their applications.
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Numerical methods for vibration problems
This book provides a benchmark for the state of the field of thermoelectric materials research and development. Highlights of the volume include results on superlattices that show a ZT = at room temperature in p-type Bi2Te3/Sb2Te3 superlattice : Paperback. Book Description.
Environmental and economic concerns have significantly spurred the search for novel, high-performance thermoelectric materials for energy conversion in small-scale power generation and refrigeration devices.
This quest has been mainly fueled by the introduction of new designs and the synthesis of new materials. This book provides a current perspective of recent developments and trends within thermoelectric materials and devices for power energy harvesting applications.
The book highlights the potential of thermoelectrics in the context of a low carbon energy economy, and features in-depth coverage of a range of different fabrication methods for Price: $ This book presents a detailed, updated introduction to the field of thermoelectric materials in a tutorial way, focusing on both basic notions and fundamental questions and illustrating the Author: Enrique Macia.
Thermoelectric Materials and Devices summarizes the latest research achievements over the past 20 years of thermoelectric material and devices, most notably including new theory and strategies of thermoelectric materials design and the new technology of device integration.
The author has provided a bridge between the knowledge of basic physical/chemical principles and the fabrication Book Edition: 1. Thermoelectric Materials, Phenomena, and Applications: A Bir d’s Ey e View alloys based on the Bi 2 Te 3 system [(Bi 1– x Sb x) 2 (T e 1– x Se x) 3 ] and the Si 1– y Ge y sys.
Thermal energy harvesting is predicted to become a global, billion-pound market by This book provides a current perspective of recent developments and trends within thermoelectric materials and devices for power energy harvesting applications.
The book highlights the potential of thermoelectrics in the context of a low carbon energy economy, and features in-depth coverage of a range of.
This timely book explores the latest research results on the physics and materials science of oxide thermoelectrics at all scales. It covers the theory, design and properties of thermoelectric materials as well as fabrication technologies for devices and their applications.
Thermoelectric materials have received a great deal of attention in energy-harvesting and cooling applications, primarily due to their intrinsic low cost, energy efficient and eco-friendly nature. The past decade has witnessed heretofore-unseen advances in organic-based thermoelectric materials and devices.
This title summarises the significant progress that has been made in the molecular. Res. Soc. Symp. Proc.); Thermoelectric Materials —The Next Generation Materials for Small-Scale Refrigeration and Power Generation Applications (Mater.
Res. Soc. Symp. Proc.); Thermoelectric Materials —The Next Generation Materials for Small-Scale Refrigeration and Power Generation Applications (Mater. Res. Soc Cited by: 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.
The key phenomenon to generate thermoelectric effect is Seebeck effect, where electricity generates due to temperature differences. The Seebeck coefficient is an intrinsic property of the materials related to their electronic properties and independent of their geometry .It can also be defined as the electric potential difference (or the generated thermovoltage) created by a temperature.
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.
Thermoelectric materials, which can generate electricity from waste heat or be used as solid-state Peltier coolers, could play an important role in a global sustainable energy solution.
Such a development is contingent on identifying materials with higher thermoelectric efficiency than available at present, which is a challenge owing to the. His research interests include thermoelectric transport phenomena in complex band structure and nanostructured materials for energy conversion and generation applications.
He is the author of more than 80 journal publications in computation of materials and Brand: Springer International Publishing.
This book provides a concise but comprehensive introduction to the fundamentals and current state of the art in thermoelectrics.
Addressing an audience of materials scientists and engineers, the book covers theory, materials selection, and applications, with a wide variety of case studies reflecting the most up-to-date research approaches from the past decade, from single crystal to. Thermoelectrics is the science and technology associated with thermoelectric converters, that is, the generation of electrical power by the Seebeck effect and refrigeration by the Peltier effect.
Thermoelectric generators are being used in increasing numbers to provide electrical power in medical, military, and deep space applications where combinations of their desirable properties outweigh 5/5(4). in thermoelectric materials for many industrial and energy applications.
In fact, the history of thermoelectric materials can be characterized by the progress of increasing ZT, as shown in Fig. The history of applications of thermoelectric materials is strongly associated with their efficiency. The earlyCited by: Your guide to advanced thermoelectric materials.
Written by a distinguished group of contributors, this book provides comprehensive coverage of the most up-to-date information on all aspects of advanced thermoelectric materials — ranging from system biology, diagnostics, imaging, image-guided therapy, therapeutics, biosensors, and translational medicine and personalized.
Materials selection criteria Of Merit The potential of a material for thermoelectric applications is determined in large part to a measure of the material’s dimensionless figure of merit, ZT = S 𝟐 𝝈𝑻 𝒌 ZT = S 𝟐 𝑻 𝝆𝒌 𝒌 = 𝒌e + 𝒌g 8 9.
Thermoelectric materials research and applications: symposium held November, Boston, Massachusetts, U.S.A.Adjusting the properties of thermoelectric materials for energy applications by nanostructuring Research Directions One of the fundamental and intriguing questions in materials science is how to control functional properties of materials by manipulating their microstructure.
An outstanding example for a functional property that is highly sensitive to the finest features of microstructure is.Thermoelectric Materials, Phenomena, and Applications: A Bird’s Eye View MRS BULLETIN • VOLUME 31 • MARCH temperature TE materials (see Koumoto et al. in this issue). The potential of nanomaterials and their role in TE re-search are an emerging area of interest (see Rao et al.
in this issue). Bulk material.