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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 design, physical characterization, and performance optimization of organic thermoelectric materials, focusing on effective routes to minimize thermal conductivity and maximize power factor. Featuring a series…mehr

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Produktbeschreibung
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 design, physical characterization, and performance optimization of organic thermoelectric materials, focusing on effective routes to minimize thermal conductivity and maximize power factor. Featuring a series of state-of-the-art strategies for enhancing the thermoelectric figure of merit (ZT) of organic thermoelectricity, and highlighting cutting-edge concepts to promote the performance of organic thermoelectricity, chapters will strengthen the exploration of new high-ZT thermoelectric materials and their potential applications. With contributions from leading worldwide authors, Organic Thermoelectric Materials will appeal to graduate students as well as academic and industrial researchers across chemistry, materials science, physics and engineering interested in the materials and their applications.

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Autorenporträt
Dr. Zhiqun Lin is currently Professor of Materials Science and Engineering at the Georgia Institute of Technology. He received his PhD degree in Polymer Science and Engineering from University of Massachusetts, Amherst in 2002. He did his postdoctoral research at University of Illinois at Urbana-Champaign. His research interests include polymer-based nanocomposites, block copolymers, conjugated polymers, quantum dots (rods, tetrapods and wires), functional nanocrystals (metallic, magnetic, semiconducting, upconversion and thermoelectric) of different architectures, solar cells (perovskite solar cells and dye sensitized solar cells), batteries, hydrogen generation, thermoelectric materials and devices, hierarchically structured and assembled materials, and surface and interfacial properties. He has published more than 220 peer reviewed journal articles (with an h-index of 61), 10 book chapters, and 4 books. Currently, he serves as an Associate Editor for Journal of Materials Chemistry A, and an editorial advisory board member for Nanoscale. He is a recipient of Frank J. Padden Jr. Award in Polymer Physics from American Physical Society, an NSF Career Award, a 3 M Non-Tenured Faculty Award, and an invited participant at the National Academy of Engineering's 2010 US Frontiers of Engineering Symposium. He became a Fellow of Royal Society of Chemistry in 2014 and a Japan Society for Promotion of Science (JSPS) Fellow in 2015. Dr. Ming He received his B.S. in Materials Science and Engineering from East China University of Science and Technology in 2005, and received his Ph.D. in Polymer Chemistry and Physics from Fudan University in 2011. He was a visiting student at Iowa State university (2009-2011). He worked as a Postdoctoral Fellow at Fudan University (2011-2013) and Georgia Institute of Technology (2013-2017). In July 2017, he became a Research Scientist at Georgia Institute of Technology. His research interests include conjugated polymers, organic-inorganic hybrid semiconductors, solar cells, and thermoelectricity.