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Title: Disordered zinc in Zn4Sb3 with phonon-glass and electron-crystal thermoelectric properties. Author: Snyder GJ, Christensen M, Nishibori E, Caillat T, Iversen BB. Journal: Nat Mater; 2004 Jul; 3(7):458-63. PubMed ID: 15220913. Abstract: By converting waste heat into electricity, thermoelectric generators could be an important part of the solution to today's energy challenges. The compound Zn(4)Sb(3) is one of the most efficient thermoelectric materials known. Its high efficiency results from an extraordinarily low thermal conductivity in conjunction with the electronic structure of a heavily doped semiconductor. Previous structural studies have been unable to explain this unusual combination of properties. Here, we show through a comprehensive structural analysis using single-crystal X-ray and powder-synchrotron-radiation diffraction methods, that both the electronic and thermal properties of Zn(4)Sb(3) can be understood in terms of unique structural features that have been previously overlooked. The identification of Sb(3-) ions and Sb(2)(4-) dimers reveals that Zn(4)Sb(3) is a valence semiconductor with the ideal stoichiometry Zn(13)Sb(10). In addition, the structure contains significant disorder, with zinc atoms distributed over multiple positions. The discovery of glass-like interstitial sites uncovers a highly effective mechanism for reducing thermal conductivity. Thus Zn(4)Sb(3) is in many ways an ideal 'phonon glass, electron crystal' thermoelectric material.[Abstract] [Full Text] [Related] [New Search]