Amandine Duparchy
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View article: Poorer is better: towards robust, high performance Mg<sub>2</sub>(Si,Sn) thermoelectric material by avoiding excess Mg
Poorer is better: towards robust, high performance Mg<sub>2</sub>(Si,Sn) thermoelectric material by avoiding excess Mg Open
Mg2(Si,Sn)-based semiconductors constitute promising thermoelectrics (TE), in particular as n-type materials. These are usually synthesized under Mg-excess to compensate for losses of Mg during synthesis and achieve the high carrier concen…
View article: MgCuSb as a suitable electrode for contacting pre-compacted pellets of MgAgSb thermoelectric material
MgCuSb as a suitable electrode for contacting pre-compacted pellets of MgAgSb thermoelectric material Open
The p-type thermoelectric (TE) material α-MgAgSb is a promising tellurium-free bismuth telluride substitute for cooling and waste heat harvesting applications between room temperature and 573 K. Optimization of the material resulted in hig…
View article: Instability Mechanism in Thermoelectric Mg<sub>2</sub>(Si,Sn) and the Role of Mg Diffusion at Room Temperature
Instability Mechanism in Thermoelectric Mg<sub>2</sub>(Si,Sn) and the Role of Mg Diffusion at Room Temperature Open
View article: Instability Mechanism in Thermoelectric Mg<sub>2</sub>(Si,Sn) and the Role of Mg Diffusion at Room Temperature
Instability Mechanism in Thermoelectric Mg<sub>2</sub>(Si,Sn) and the Role of Mg Diffusion at Room Temperature Open
Mg 2 (Si,Sn) shows great promise as thermoelectric material as it is made from non‐toxic, abundant, and cost‐effective elements offering high performance. This has been emphasized by several thermoelectric generator prototypes, demonstrati…
View article: Establishing synthesis–composition–property relationships for enhanced and reproducible thermoelectric properties of MgAgSb
Establishing synthesis–composition–property relationships for enhanced and reproducible thermoelectric properties of MgAgSb Open
Established synthesis–composition–property relationship proving a narrow homogeneity range while revealing that MgAgSb functional properties are governed by secondary phases.