Enhancing Interfacial Properties of Mg 2 Si‐Based Thermoelectric Joint with Mg 2 SiNi 3 Compound as Electrodes

The phase component and its evolution during aging at the joint between thermoelectric (TE) materials and electrodes are of much importance to the quality and the performance of the TE devices. While the figure of merit zT of TE materials determines the maximum efficiency of TE devices, undesired side reactions causing the growing interfacial resistance or mechanical failures between TEs and metal electrodes limit the actual performance of devices. Herein, the candidate electrode materials (Mg 2 Ni and Mg 2 SiNi 3 ) for Mg 2 Si are explored, which is one of the cost‐effective and environmentally friendly TE materials exhibiting high zT . The electrodes are directly bonded to Mg 2 Si by field‐activated pressure‐Assisted sintering (FAPAS) in one‐step process. The interfaces of fabricated joints with different sintering times are monitored by electron microscopy, followed by the measurement of shear strength and the contact resistances. Outperforming strength (28.29 MPa) and contact resistance (63 μΩ cm 2 ) are observed with Mg 2 SiNi 3 at the joint bonded for 30 min. A long‐term stability test on Mg 2 SiNi 3 /Mg 2 Si joint reveals a minute increase in the contact resistance as well as sufficient mechanical stability, suggesting that Mg 2 SiNi 3 is a great candidate of the electrode materials for Mg 2 Si.