|Statement||edited by M.G. Kanatzidis, S.D. Mahanti, T.P. Hogan|
|Series||Fundamental Materials Research, 1567-830X, Fundamental materials research|
|Contributions||Mahanti, S. D., Hogan, T. P.|
|The Physical Object|
|Format||[electronic resource] :|
|Pagination||1 online resource (320 pages).|
|Number of Pages||320|
Chemistry, Physics, and Materials Science of Thermoelectric Materials: Beyond Bismuth Telluride (Fundamental Materials Research) rd Edition by M.G. Kanatzidis (Editor), T.P. Hogan (Editor), S.D. Mahanti (Editor) & 0 moreFormat: Hardcover. Chemistry, Physics, and Materials Science of Thermoelectric Materials: Beyond Bismuth Telluride (Fundamental Materials Research) - Kindle edition by Kanatzidis, M.G., Hogan, T.P., Mahanti, S.D.. Download it once and read it on your Kindle device, PC, phones or tablets. Use features like bookmarks, note taking and highlighting while reading Chemistry, Physics, and Materials Science of Price: $ The Paperback of the Chemistry, Physics, and Materials Science of Thermoelectric Materials: Beyond Bismuth Telluride by M.G. Kanatzidis at Barnes & Due to COVID, orders may be delayed. Thank you for your patience. Description: This volume: Chemistry, Physics and Materials Science of Thermoelectric Materials: Beyond Bismuth Telluride contains a series of topical articles that were presented as invited lectures by prominent leaders in this field at a workshop held in Traverse City, Michigan in the summer of These articles place the state of the art.
Oxide Thermoelectric Materials is a well-organized guidebook for graduate students involved in physics, chemistry, or materials science. It is also helpful for researchers who are getting involved in thermoelectric research and development. 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. 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. Thus, thermoelectric materials provide a full-fledged example of interdisciplinary research connecting fields such as solid-state physics, materials science engineering, and structural chemistry Author: Enrique Macia.
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