Effect of La0.8Ca0.2Cr0.9Co0.1O3−δ infiltration on the LCCC-YSZ layer as an interconnector material in solid oxide fuel cells

@article{ART002580784},
author={ Ho-Chang Lee and Jiwon Lee and Jung-A Lee and Young-Woo Heo and Joon-Hyung Lee and Jeong-Joo Kim },
title={Effect of La0.8Ca0.2Cr0.9Co0.1O3−δ infiltration on the LCCC-YSZ layer as an interconnector material in solid oxide fuel cells},
journal={Journal of Ceramic Processing Research},
issn={1229-9162},
year={2020},
volume={21},
number={2},
pages={208-212},
doi={10.36410/jcpr.2020.21.2.208},
url={http://dx.doi.org/10.36410/jcpr.2020.21.2.208}

TY - JOUR
AU - Ho-Chang Lee
AU - Jiwon Lee
AU - Jung-A Lee
AU - Young-Woo Heo
AU - Joon-Hyung Lee
AU - Jeong-Joo Kim
TI - Effect of La0.8Ca0.2Cr0.9Co0.1O3−δ infiltration on the LCCC-YSZ layer as an interconnector material in solid oxide fuel cells
T2 - Journal of Ceramic Processing Research
PY - 2020
VL - 21
IS - 2
PB - 한양대학교 청정에너지연구소
SP - 208-212
SN - 1229-9162
AB - Full densification of the interconnector La0.8Ca0.2Cr0.9Co0.1O3−δ (LCCC) layer is hardly achieved when it is screen-printed andcofired on a pre-sintered NiO-YSZ (yttria-stabilized zirconia, 8YSZ) substrate. In this study, the LCCC precursors withdifferent concentrations and viscosities were prepared and infiltrated into the LCCC-YSZ layer. The phase developmentprocess and densification behavior of the LCCC were analyzed, and the optimum conditions for full densification aresuggested. Through the research, we propose a method for manufacturing a dense LCCC interconnector layer
KW - Sintering, Ceramics, Interconnector, Sol-gel preparation, Infiltration.
DO - 10.36410/jcpr.2020.21.2.208
UR - http://dx.doi.org/10.36410/jcpr.2020.21.2.208
ER -

Ho-Chang Lee , Jiwon Lee , Jung-A Lee , Young-Woo Heo , Joon-Hyung Lee and Jeong-Joo Kim (2020). Effect of La0.8Ca0.2Cr0.9Co0.1O3−δ infiltration on the LCCC-YSZ layer as an interconnector material in solid oxide fuel cells. Journal of Ceramic Processing Research, 21( 2), 208- 212.

Ho-Chang Lee , Jiwon Lee , Jung-A Lee , Young-Woo Heo , Joon-Hyung Lee and Jeong-Joo Kim . 2020, “Effect of La0.8Ca0.2Cr0.9Co0.1O3−δ infiltration on the LCCC-YSZ layer as an interconnector material in solid oxide fuel cells”, Journal of Ceramic Processing Research, vol. 21, no. 2, pp. 208-212. Available from: doi:10.36410/jcpr.2020.21.2.208

Ho-Chang Lee Jiwon Lee et al. Jung-A Lee Young-Woo Heo Joon-Hyung Lee Jeong-Joo Kim “Effect of La0.8Ca0.2Cr0.9Co0.1O3−δ infiltration on the LCCC-YSZ layer as an interconnector material in solid oxide fuel cells” Journal of Ceramic Processing Research 21.2 pp. 208-212 (2020): 208.

Ho-Chang Lee , Jiwon Lee , Jung-A Lee , Young-Woo Heo , Joon-Hyung Lee , Jeong-Joo Kim . Effect of La0.8Ca0.2Cr0.9Co0.1O3−δ infiltration on the LCCC-YSZ layer as an interconnector material in solid oxide fuel cells Journal of Ceramic Processing Research [Internet]. 2020; 21( 2), : 208-212. Available from: doi:10.36410/jcpr.2020.21.2.208

Ho-Chang Lee , Jiwon Lee , Jung-A Lee , Young-Woo Heo , Joon-Hyung Lee and Jeong-Joo Kim . “Effect of La0.8Ca0.2Cr0.9Co0.1O3−δ infiltration on the LCCC-YSZ layer as an interconnector material in solid oxide fuel cells” Journal of Ceramic Processing Research 21, no.2 (2020): 208-212. doi: 10.36410/jcpr.2020.21.2.208

홈 권호 목록 논문 목록 논문 상세

Effect of La0.8Ca0.2Cr0.9Co0.1O3−δ infiltration on the LCCC-YSZ layer as an interconnector material in solid oxide fuel cells

Journal of Ceramic Processing Research

약어 : J. Ceram. Process. Res.

2020, vol.21, no.2, pp.208 - 212

DOI : 10.36410/jcpr.2020.21.2.208

발행기관 : 한양대학교 청정에너지연구소

연구분야 : 재료공학

Ho-Chang Lee¹ , Jiwon Lee² , Jung-A Lee³ , Young-Woo Heo⁴ , Joon-Hyung Lee⁵ , Jeong-Joo Kim⁶

¹Kyungpook National University

²Kyungpook National University

³Kyungpook National University

⁴Kyungpook National University

⁵Kyungpook National University

⁶Kyungpook National University

인용한 논문 수 : - 서지 간략 보기

초록

Full densification of the interconnector La0.8Ca0.2Cr0.9Co0.1O3−δ (LCCC) layer is hardly achieved when it is screen-printed andcofired on a pre-sintered NiO-YSZ (yttria-stabilized zirconia, 8YSZ) substrate. In this study, the LCCC precursors withdifferent concentrations and viscosities were prepared and infiltrated into the LCCC-YSZ layer. The phase developmentprocess and densification behavior of the LCCC were analyzed, and the optimum conditions for full densification aresuggested. Through the research, we propose a method for manufacturing a dense LCCC interconnector layer

키워드

Sintering, Ceramics, Interconnector, Sol-gel preparation, Infiltration.

참고문헌(5)

[학술지] 박범경 / 2014 / 고체산화물 연료전지 연결재용 세라믹 소재 / 한국세라믹학회지 51 (4) : 231 ~ 242
[단행본] N.Q. Minh / 1995 / Science and technology of ceramic fuel cell / Elsevier Science
[단행본] S.C. Singhal / 2004 / High temperature and solid oxide fuel cells: Fundamentals, Design and Applications / Elsevier Science
[학술지] Eun A Lee / 2008 / Consumptive coating layer synthesis by a sol-gel technique on a stainless steel substrate for an IT-SOFC separator / Journal of Ceramic Processing Research 9 (5) : 538 ~ 543
[학술지] 이호창 / 2012 / CaCrO4 첨가에 따른 LCCC(La0.8Ca0.2Cr0.9Co0.1O3-δ)의 전이액상소결거동 / 한국세라믹학회지 49 (2) : 197 ~ 203