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Yoo, Jung-Woo
Functional Hybrid Materials and Devices Lab(FHMDL)
Research Interests
  • Transport properties, spintronics, organic/molucular magnet, electronic, and spintronics,


Soluble Telluride-Based Molecular Precursor for Solution-Processed High-Performance Thermoelectrics

DC Field Value Language Jo, Seungki ko Park, Sun Hwa ko Shin, Hosun ko Oh, Inseon ko Heo, Seung Hwae ko Ban, Hyeong Woo ko Jeong, Hyewon ko Kim, Fredrick ko Choo, Seungjun ko Gu, Da Hwi ko Baek, Seongheon ko Cho, Soyoung ko Kim, Jin Sang ko Kim, Bong-Seo ko Lee, Ji Eun ko Song, Seungwoo ko Yoo, Jung-Woo ko Song, Jae Yong ko Son, Jae Sung ko 2019-09-02T09:04:03Z - 2019-08-15 ko 2019-07 ko
dc.identifier.citation ACS APPLIED ENERGY MATERIALS, v.2, no.7, pp.4582 - 4589 ko
dc.identifier.issn 2574-0962 ko
dc.identifier.uri -
dc.description.abstract The recent interest in wearable electronics suggests flexible thermoelectrics as candidates for the power supply. Herein, we report a solution process to fabricate flexible Sb2Te3 thermoelectric thin films using molecular Sb2Te3 precursors, synthesized by the reduction of Sb2Te3 powder in ethylenediamine and ethanedithiol with superhydride. The fabricated flexible Sb2Te3 thin films exhibit a power factor of ∼8.5 μW cm–1 K−2 at 423 K, maintaining the properties during 1000 bending cycles. FePt nanoparticles are homogeneously embedded in the Sb2Te3 thin film, reducing the thermal conductivity. The current study offers considerable potential for manufacturing high-performance flexible thin film devices. ko
dc.language 영어 ko
dc.publisher AMER CHEMICAL SOC ko
dc.title Soluble Telluride-Based Molecular Precursor for Solution-Processed High-Performance Thermoelectrics ko
dc.type ARTICLE ko
dc.identifier.scopusid 2-s2.0-85070557418 ko
dc.type.rims ART ko
dc.identifier.doi 10.1021/acsaem.9b00685 ko
dc.identifier.url ko
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