The Electrical Conduction-Type Transition in Se-Free Bi2Te3 Thermoelectric Materials by Decoration of Ni Nanoparticles

The Electrical Conduction-Type Transition in Se-Free Bi2Te3 Thermoelectric Materials by Decoration of Ni Nanoparticles

The composites based on Bi2Te3 (BT) have been extensively studied owing to their high thermoelectric performance in the range of room temperature. Herein, we introduced Ni nanoparticles (NPs) into bulk BT to examine the influence of those on the electrical conduction-type transition. As the contents...

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Veröffentlicht in:ACS applied energy materials 2024-10, Vol.7 (19), p.8807-8813
Hauptverfasser: Lee, Nayoung, Ye, Sung Wook, Park, Jungmin, Seo, Sehoon, Kang, Minji, Kim, Hyun-Sik, Kim, Sang-il, Cho, Jung Young, Nam, Woo Hyun, Roh, Jong Wook
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container_end_page 8813
container_issue 19
container_start_page 8807
container_title ACS applied energy materials
container_volume 7
creator Lee, Nayoung
Ye, Sung Wook
Park, Jungmin
Seo, Sehoon
Kang, Minji
Kim, Hyun-Sik
Kim, Sang-il
Cho, Jung Young
Nam, Woo Hyun
Roh, Jong Wook
description The composites based on Bi2Te3 (BT) have been extensively studied owing to their high thermoelectric performance in the range of room temperature. Herein, we introduced Ni nanoparticles (NPs) into bulk BT to examine the influence of those on the electrical conduction-type transition. As the contents of Ni NPs increased to 0.08 wt %, secondary phases, such as p-type NiTe2 and/or n-type Ni2Te3, were generated in the BT matrix. As a result, the electrical conduction-type transition was observed from n-type to p-type with increase of Ni contents in Ni NPs-introduced BT. Furthermore, the highest power factor was obtained for the 0.02 wt % Ni/Bi2T3 sample. The corresponding thermoelectric figure of merit value was measured to be 0.52 at 303 K, the value of which was improved by approximately 19% compared with that of the pristine sample. Based on these results, introducing Ni NPs into the BT matrix is an efficient strategy to control the carrier concentration and thermoelectric properties.
doi_str_mv 10.1021/acsaem.4c01745
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Herein, we introduced Ni nanoparticles (NPs) into bulk BT to examine the influence of those on the electrical conduction-type transition. As the contents of Ni NPs increased to 0.08 wt %, secondary phases, such as p-type NiTe2 and/or n-type Ni2Te3, were generated in the BT matrix. As a result, the electrical conduction-type transition was observed from n-type to p-type with increase of Ni contents in Ni NPs-introduced BT. Furthermore, the highest power factor was obtained for the 0.02 wt % Ni/Bi2T3 sample. The corresponding thermoelectric figure of merit value was measured to be 0.52 at 303 K, the value of which was improved by approximately 19% compared with that of the pristine sample. 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