TY - JOUR
T1 - Highly thermally conductive and mechanically strong graphene fibers
AU - Xin, Guoqing
AU - Yao, Tiankai
AU - Sun, Hongtao
AU - Scott, Spencer Michael
AU - Shao, Dali
AU - Wang, Gongkai
AU - Lian, Jie
PY - 2015/9/4
Y1 - 2015/9/4
N2 - Graphene, a single layer of carbon atoms bonded in a hexagonal lattice, is the thinnest, strongest, and stiffest known material and an excellent conductor of heat and electricity. However, these superior properties have yet to be realized for graphene-derived macroscopic structures such as graphene fibers. We report the fabrication of graphene fibers with high thermal and electrical conductivity and enhanced mechanical strength. The inner fiber structure consists of large-sized graphene sheets forming a highly ordered arrangement intercalated with small-sized graphene sheets filling the space and microvoids. The graphene fibers exhibit a submicrometer crystallite domain size through high-temperature treatment, achieving an enhanced thermal conductivity up to 1290 watts per meter per kelvin. The tensile strength of the graphene fiber reaches 1080 megapascals.
AB - Graphene, a single layer of carbon atoms bonded in a hexagonal lattice, is the thinnest, strongest, and stiffest known material and an excellent conductor of heat and electricity. However, these superior properties have yet to be realized for graphene-derived macroscopic structures such as graphene fibers. We report the fabrication of graphene fibers with high thermal and electrical conductivity and enhanced mechanical strength. The inner fiber structure consists of large-sized graphene sheets forming a highly ordered arrangement intercalated with small-sized graphene sheets filling the space and microvoids. The graphene fibers exhibit a submicrometer crystallite domain size through high-temperature treatment, achieving an enhanced thermal conductivity up to 1290 watts per meter per kelvin. The tensile strength of the graphene fiber reaches 1080 megapascals.
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U2 - 10.1126/science.aaa6502
DO - 10.1126/science.aaa6502
M3 - Article
AN - SCOPUS:84941287049
SN - 0036-8075
VL - 349
SP - 1083
EP - 1087
JO - Science
JF - Science
IS - 6252
ER -