Improved trade-off between thermoelectric performance and mechanical reliability of Mg2Si by hybridization of few-layered reduced graphene oxides

Gwansik Kim; Sung Wng Kim; Hyun Jun Rim; Hwijong Lee; Jeongmin Kim; Jong Wook Roh; Byung Wook Kim; Kyu Hyoung Lee; Wooyoung Lee

doi:10.1016/j.scriptamat.2018.11.052

Improved trade-off between thermoelectric performance and mechanical reliability of Mg₂Si by hybridization of few-layered reduced graphene oxides

Gwansik Kim
, Sung Wng Kim
, Hyun Jun Rim
, Hwijong Lee
, Jeongmin Kim
, Jong Wook Roh
, Byung Wook Kim
, Kyu Hyoung Lee
, Wooyoung Lee

Yonsei University
Sungkyunkwan University
Hyundai Motor Group

Research output: Contribution to journal › Article › peer-review

18 Scopus citations

Abstract

Nanocomposites can simultaneously enhance the thermoelectric and mechanical properties of thermoelectric materials. Here, we fabricated bulks of Mg_1.96Al_0.04Si_0.97Bi_0.03 with monodispersed few-layered reduced graphene oxides utilizing ultrasonic-based wet chemical pulverizing-mixing and spark plasma sintering to improve unfavorable trade-off between thermoelectric performance and mechanical reliability, which is important for commercialization. An unexpected high fracture toughness of ~1.88 MPa m^1/2 was observed due to the synergetic effect of the deflection of crack propagation, bridging, and sheet pull-out mechanisms, and a high thermoelectric figure of merit ~0.6 was obtained even for a high content (3 vol.%) of reduced graphene oxides.

Original language	English
Pages (from-to)	402-407
Number of pages	6
Journal	Scripta Materialia
Volume	162
DOIs	https://doi.org/10.1016/j.scriptamat.2018.11.052
State	Published - 15 Mar 2019

Keywords

Fracture toughness
MgSi
Nanocomposite
Reduced graphene oxides
Thermoelectric

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10.1016/j.scriptamat.2018.11.052

Cite this

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title = "Improved trade-off between thermoelectric performance and mechanical reliability of Mg2Si by hybridization of few-layered reduced graphene oxides",

abstract = "Nanocomposites can simultaneously enhance the thermoelectric and mechanical properties of thermoelectric materials. Here, we fabricated bulks of Mg1.96Al0.04Si0.97Bi0.03 with monodispersed few-layered reduced graphene oxides utilizing ultrasonic-based wet chemical pulverizing-mixing and spark plasma sintering to improve unfavorable trade-off between thermoelectric performance and mechanical reliability, which is important for commercialization. An unexpected high fracture toughness of \textasciitilde{}1.88 MPa m1/2 was observed due to the synergetic effect of the deflection of crack propagation, bridging, and sheet pull-out mechanisms, and a high thermoelectric figure of merit \textasciitilde{}0.6 was obtained even for a high content (3 vol.\%) of reduced graphene oxides.",

keywords = "Fracture toughness, MgSi, Nanocomposite, Reduced graphene oxides, Thermoelectric",

author = "Gwansik Kim and Kim, \{Sung Wng\} and Rim, \{Hyun Jun\} and Hwijong Lee and Jeongmin Kim and Roh, \{Jong Wook\} and Kim, \{Byung Wook\} and Lee, \{Kyu Hyoung\} and Wooyoung Lee",

note = "Publisher Copyright: {\textcopyright} 2018 Elsevier Ltd",

year = "2019",

month = mar,

day = "15",

doi = "10.1016/j.scriptamat.2018.11.052",

language = "English",

volume = "162",

pages = "402--407",

journal = "Scripta Materialia",

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T1 - Improved trade-off between thermoelectric performance and mechanical reliability of Mg2Si by hybridization of few-layered reduced graphene oxides

AU - Kim, Gwansik

AU - Kim, Sung Wng

AU - Rim, Hyun Jun

AU - Lee, Hwijong

AU - Kim, Jeongmin

AU - Roh, Jong Wook

AU - Kim, Byung Wook

AU - Lee, Kyu Hyoung

AU - Lee, Wooyoung

PY - 2019/3/15

Y1 - 2019/3/15

N2 - Nanocomposites can simultaneously enhance the thermoelectric and mechanical properties of thermoelectric materials. Here, we fabricated bulks of Mg1.96Al0.04Si0.97Bi0.03 with monodispersed few-layered reduced graphene oxides utilizing ultrasonic-based wet chemical pulverizing-mixing and spark plasma sintering to improve unfavorable trade-off between thermoelectric performance and mechanical reliability, which is important for commercialization. An unexpected high fracture toughness of ~1.88 MPa m1/2 was observed due to the synergetic effect of the deflection of crack propagation, bridging, and sheet pull-out mechanisms, and a high thermoelectric figure of merit ~0.6 was obtained even for a high content (3 vol.%) of reduced graphene oxides.

AB - Nanocomposites can simultaneously enhance the thermoelectric and mechanical properties of thermoelectric materials. Here, we fabricated bulks of Mg1.96Al0.04Si0.97Bi0.03 with monodispersed few-layered reduced graphene oxides utilizing ultrasonic-based wet chemical pulverizing-mixing and spark plasma sintering to improve unfavorable trade-off between thermoelectric performance and mechanical reliability, which is important for commercialization. An unexpected high fracture toughness of ~1.88 MPa m1/2 was observed due to the synergetic effect of the deflection of crack propagation, bridging, and sheet pull-out mechanisms, and a high thermoelectric figure of merit ~0.6 was obtained even for a high content (3 vol.%) of reduced graphene oxides.

KW - Fracture toughness

KW - MgSi

KW - Nanocomposite

KW - Reduced graphene oxides

KW - Thermoelectric

UR - https://www.scopus.com/pages/publications/85058012873

U2 - 10.1016/j.scriptamat.2018.11.052

DO - 10.1016/j.scriptamat.2018.11.052

M3 - Article

AN - SCOPUS:85058012873

SN - 1359-6462

VL - 162

SP - 402

EP - 407

JO - Scripta Materialia

JF - Scripta Materialia

ER -

Improved trade-off between thermoelectric performance and mechanical reliability of Mg₂Si by hybridization of few-layered reduced graphene oxides

Abstract

Keywords

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