@article{ART002077008},
author={Ji-Hyun Kim and Kyung Hoon Kim and 박미선 and 배태성 and Lee, Young-Seak},
title={Cu nanoparticle-embedded carbon foams with improved compressive strength and thermal conductivity},
journal={Carbon Letters},
issn={1976-4251},
year={2016},
volume={17},
number={1},
pages={65-69}
TY - JOUR
AU - Ji-Hyun Kim
AU - Kyung Hoon Kim
AU - 박미선
AU - 배태성
AU - Lee, Young-Seak
TI - Cu nanoparticle-embedded carbon foams with improved compressive strength and thermal conductivity
JO - Carbon Letters
PY - 2016
VL - 17
IS - 1
PB - Korean Carbon Society
SP - 65
EP - 69
SN - 1976-4251
AB - Carbon foams (CFms) exhibit excellent physical properties, including good thermal conductivity, low density, high porosity and specific surface area, good vibration damping and shock absorption properties, and low thermal expansion coefficients. These properties are attractive in various applications such as thermal and electrical transfer devices, electrochemical supercapacitors, catalyst supports, gas adsorbents, filtration systems, and electromagnetic shielding. However, compared to metals and polymers, CFms do not exhibit good mechanical or thermal properties because of their porous structure; these shortcomings have limited the application of CFms in various fields [1-4].
KW - pitch;nanoparticle;carbon foam;thermal conductivity;compressive strength
DO -
UR -
ER -
Ji-Hyun Kim, Kyung Hoon Kim, 박미선, 배태성 and Lee, Young-Seak. (2016). Cu nanoparticle-embedded carbon foams with improved compressive strength and thermal conductivity. Carbon Letters, 17(1), 65-69.
Ji-Hyun Kim, Kyung Hoon Kim, 박미선, 배태성 and Lee, Young-Seak. 2016, "Cu nanoparticle-embedded carbon foams with improved compressive strength and thermal conductivity", Carbon Letters, vol.17, no.1 pp.65-69.
Ji-Hyun Kim, Kyung Hoon Kim, 박미선, 배태성, Lee, Young-Seak "Cu nanoparticle-embedded carbon foams with improved compressive strength and thermal conductivity" Carbon Letters 17.1 pp.65-69 (2016) : 65.
Ji-Hyun Kim, Kyung Hoon Kim, 박미선, 배태성, Lee, Young-Seak. Cu nanoparticle-embedded carbon foams with improved compressive strength and thermal conductivity. 2016; 17(1), 65-69.
Ji-Hyun Kim, Kyung Hoon Kim, 박미선, 배태성 and Lee, Young-Seak. "Cu nanoparticle-embedded carbon foams with improved compressive strength and thermal conductivity" Carbon Letters 17, no.1 (2016) : 65-69.
Ji-Hyun Kim; Kyung Hoon Kim; 박미선; 배태성; Lee, Young-Seak. Cu nanoparticle-embedded carbon foams with improved compressive strength and thermal conductivity. Carbon Letters, 17(1), 65-69.
Ji-Hyun Kim; Kyung Hoon Kim; 박미선; 배태성; Lee, Young-Seak. Cu nanoparticle-embedded carbon foams with improved compressive strength and thermal conductivity. Carbon Letters. 2016; 17(1) 65-69.
Ji-Hyun Kim, Kyung Hoon Kim, 박미선, 배태성, Lee, Young-Seak. Cu nanoparticle-embedded carbon foams with improved compressive strength and thermal conductivity. 2016; 17(1), 65-69.
Ji-Hyun Kim, Kyung Hoon Kim, 박미선, 배태성 and Lee, Young-Seak. "Cu nanoparticle-embedded carbon foams with improved compressive strength and thermal conductivity" Carbon Letters 17, no.1 (2016) : 65-69.