Fabrication and characterization of nickel contacts for magnesium silicide based thermoelectric generators

Abstract: a b s t r a c tMagnesium silicide based solid solutions are highly attractive materials for thermoelectric energy harvesting due to their abundance and excellent thermoelectric properties. Identification and testing of suitable contacts is -besides material optimization -the major challenge in the development of thermoelectric modules. We have applied Ni contacts on doped Mg 2 Si samples using a simple one-step sintering technique. These contacts were analyzed by combining microstructural analysis with spatial… Show more

“…Moreover, as Mg 2 Si is thermally and chemically more stable than Mg 2 Sn it is plausible that Sirich compositions are more stable than Sn-rich compositions, allowing operation at higher temperatures. Furthermore, Mg 2 Si 0.8 Sn 0.2 is closer to the technologically more developed Mg 2 Si, where progress in contact development has been reported 13,14 . On the other hand, compared to Mg 2 Si an improvement of the thermoelectric properties can be expected due to increased phonon alloy scattering.…”

Thermoelectric transport and microstructure of optimized Mg₂Si_0.8Sn_0.2

“…Moreover, as Mg 2 Si is thermally and chemically more stable than Mg 2 Sn it is plausible that Sirich compositions are more stable than Sn-rich compositions, allowing operation at higher temperatures. Furthermore, Mg 2 Si 0.8 Sn 0.2 is closer to the technologically more developed Mg 2 Si, where progress in contact development has been reported 13,14 . On the other hand, compared to Mg 2 Si an improvement of the thermoelectric properties can be expected due to increased phonon alloy scattering.…”

Thermoelectric transport and microstructure of optimized Mg₂Si_0.8Sn_0.2

“…The best performing materials in the Mg 2 (Si,Sn) system usually contain $23 AE 3 at% Sn, which is where the conduction band convergence is taking place, 41,42 and all exhibit a maximum gure of merit, zT max , of 1.4 AE 0.2, satisfactory for the device applications. 43 As for industrial applications, in addition to the electrode development which is in good progress, [44][45][46] a large amount of material is required; thus, a scalable synthesis method that sustains the outstanding TE properties of the material needs to be established. The up-scaling process can be challenging due to occurrence of de-mixing phenomena such as the formation of Si-rich and Sn-rich regions induced by gravity.…”

High efficiency Mg₂(Si,Sn)-based thermoelectric materials: scale-up synthesis, functional homogeneity, and thermal stability

“…For example, n-type Mg 2 Si 0.3 Ge 0.05 Sn 0.65 boasts a zT at ~750 K of 1.4 while p-type Mg 2 Ge 0.4 Sn 0.6 only reaches a maximum zT of 0.5 at around the same temperature. Despite the low efficiency of p-type Mg-based thermoelectric materials, some preliminary results on device design and construction of devices based on these materials has already been achieved 15,16,58,[121][122][123][124] . The low performance of the ptype Mg-based thermoelectric materials creates serious limitations on the construction of devices, and most reports on the use of these materials in modules are on n-type legs 15,58,121 .…”

Recent progress in magnesium-based thermoelectric materials