High Performance Thermoelectricity in Earth-Abundant Compounds Based on Natural Mineral Tetrahedrites
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TLDR
In this article, the authors report dimensionless thermoelectric properties of tetrahedrites, the most widespread sulfosalts on Earth, and further show that the natural mineral itself can be used directly as an inexpensive source of energy.Abstract:
Thermoelectric materials can convert waste heat into electricity, potentially improving the effi ciency of energy usage in both industry and everyday life. Unfortunately, known good thermoelectric materials often are comprised of elements that are in low abundance and require careful doping and complex synthesis procedures. Here, we report dimensionless thermoelectric fi gure of merit near unity in compounds of the form Cu 12 − x M x Sb 4 S 13 , where M is a transition metal such as Zn or Fe, for wide ranges of x . The compounds investigated here span the range of compositions of the natural mineral family of tetrahedrites, the most widespread sulfosalts on Earth, and we further show that the natural mineral itself can be used directly as an inexpensive source thermoelectric material. Thermoelectrics comprised of earth-abundant elements will pave the way to many new, low cost thermoelectric energy generation opportunities.read more
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References
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Journal Article
Tetrahedrite-tennantite series compositional variations in the Cofer Deposit, Mineral District, Virginia
J. William Miller,James R. Craig +1 more
TL;DR: In this article, a permissive substitution of Sb for As and substitution of Ag for half of the Cu is proposed for Stratiform massive sulfide deposits, where Ag substitution for Sb is performed as permissive function of the Sb-content remaining below 1 atomic percent when Sb was less than 10 atomic percent but rising to 18.6 atomic percent.
Journal ArticleDOI
Composition of tetrahedrite-tennantite and schwazite in the Schwaz silver mines, North Tyrol, Austria
Thilo Arlt,Larryn W. Diamond +1 more
TL;DR: In this article, the authors present the first electron microprobe analyses of the ores and reveal wide variations in fahlore compositions, from 35 to 100 wt. %.
Journal ArticleDOI
Mineralogical and Genetical Aspects of the Doyashiki Kuroko Deposits, Hokuroku Basin, Japan
Satoshi Kitazono,Hirotomo Ueno +1 more
TL;DR: In this article, a detail investigation of ore and gangue minerals was performed on the Doyashiki Kuroko deposits, Hokuroku basin, Japan for the first time, and the results indicated that ore fluid responsible for digenite and associated ore minerals was characterized by a range of high sulfur fugacity with a moderate formation temperature.