Effect of mechanical deformation on thermoelectric properties of p-Type (Bi 0.225Sb 0.775)2Te3Alloys

Sung Jin Jung, Seong Keun Kim, Hyung Ho Park, Dow Bin Hyun, Seung Hyub Baek, Jin Sang Kim

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4 Citations (Scopus)


The effect of mechanical deformation and annealing on thermoelectric properties of p-type (Bi0.225Sb0.775)Te3 was performed. The ingots were prepared by melting, followed by quenching method using source materials with compositions of (Bi0.225Sb 0.775)2Te3. Rectangular shaped specimens (5 × 5 × 12 mm3) were cut from ingots and then cold-pressed at 700 MPa for 2 to 20 times by changing the press direction perpendicular to previous one. The cold-pressed samples have been annealed in a quartz ampoule at 573 K. The grain size of the samples was controlled by the number of cold-pressing process and annealing time. Fine grain structure with a grain size of not more than 10 m is obtained in highly deformed samples. The Seebeck coefficient of the deformed samples were gradually increased with annealing and converged to the similar value of about 225 V/K after 30 hrs. The small grain size in highly deformed sample enables a rapid increase of Seebeck coefficient with annealing time (∼2 hrs.), indicating that the thermal energy needed to recrystallize in highly deformed specimens is lower than that in low deformed specimens. Z values are rapidly increased with annealing time especially in highly deformed alloys, and converge to about 3.0 × 10-3/K at room temperature. A higher thermoelectric performance could be expected by the optimization of composition and microstructural adjustment. The present study experimentally demonstrates a simple and cost-effective method for fabricating Bi-Te-based alloys with higher thermoelectric performance.

Original languageEnglish
Article number868540
JournalJournal of Nanomaterials
Publication statusPublished - 2013

All Science Journal Classification (ASJC) codes

  • General Materials Science


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