Mingfei Liu
Mingfei Liu
Georgia Institute of Technology
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Enhanced Sulfur and Coking Tolerance of a Mixed Ion Conductor for SOFCs: BaZr0. 1Ce0. 7Y0. 2–xYbxO3–δ
L Yang, S Wang, K Blinn, M Liu, Z Liu, Z Cheng, M Liu
Science 326 (5949), 126, 2009
Promotion of water-mediated carbon removal by nanostructured barium oxide/nickel interfaces in solid oxide fuel cells
L Yang, YM Choi, W Qin, H Chen, K Blinn, M Liu, P Liu, J Bai, TA Tyson, ...
Nature communications 2, 357, 2011
Enhanced performance of LSCF cathode through surface modification
M Liu, D Ding, K Blinn, X Li, L Nie, M Liu
International Journal of Hydrogen Energy 37 (10), 8613–8620, 2012
La0. 6Sr0. 4Co0. 2Fe0. 8O3-δ cathodes infiltrated with samarium-doped cerium oxide for solid oxide fuel cells
L Nie, M Liu, Y Zhang, M Liu
Journal of power sources 195 (15), 4704-4708, 2010
Enhancement of La0. 6Sr0. 4Co0. 2Fe0. 8O3-δ durability and surface electrocatalytic activity by La0. 85Sr0. 15MnO3δ investigated using a new test electrode platform
ME Lynch, L Yang, W Qin, JJ Choi, M Liu, K Blinn, M Liu
Energy Environ. Sci. 4, 2249-2258, 2011
Fabrication and modification of solid oxide fuel cell anodes via wet impregnation/infiltration technique
Z Liu, B Liu, D Ding, M Liu, F Chen, C Xia
Journal of Power Sources 237, 243-259, 2013
Chemically stable yttrium and tin co‐doped barium zirconate electrolyte for next generation high performance proton‐conducting solid oxide fuel cells
W Sun, M Liu, W Liu
Advanced Energy Materials 3 (8), 1041-1050, 2013
Efficient electro‐catalysts for enhancing surface activity and stability of SOFC cathodes
D Ding, M Liu, Z Liu, X Li, K Blinn, X Zhu, M Liu
Advanced Energy Materials 3 (9), 1149-1154, 2013
Direct liquid methanol-fueled solid oxide fuel cell
M Liu, R Peng, D Dong, J Gao, X Liu, G Meng
Journal of Power Sources 185 (1), 188-192, 2008
Direct octane fuel cells: A promising power for transportation
M Liu, YM Choi, L Yang, K Blinn, W Qin, P Liu, M Liu
Nano Energy 1 (3), 448–455, 2012
Raman spectroscopic monitoring of carbon deposition on hydrocarbon-fed solid oxide fuel cell anodes
KS Blinn, H Abernathy, X Li, M Liu, LA Bottomley, M Liu
Energy & Environmental Science 5 (7), 7913-7917, 2012
Novel nano-network cathodes for solid oxide fuel cells
F Zhao, Z Wang, M Liu, L Zhang, C Xia, F Chen
Journal of Power Sources 185 (1), 13-18, 2008
An easily sintered, chemically stable, barium zirconate‐based proton conductor for high‐performance proton‐conducting solid oxide fuel cells
W Sun, Z Shi, M Liu, L Bi, W Liu
Advanced Functional Materials 24 (36), 5695-5702, 2014
An efficient SOFC based on samaria-doped ceria (SDC) electrolyte
M Liu, D Ding, Y Bai, T He, M Liu
Journal of the electrochemical society 159 (6), B661, 2012
Enhanced sinterability of BaZr0. 1Ce0. 7Y0. 1Yb0. 1O3− ı by addition of nickel oxide
Y Liu, L Yang, M Liu, Z Tang, M Liu
Journal of Power Sources 196, 9980-9984, 2011
LSM-infiltrated LSCF cathodes for solid oxide fuel cells
Z Liu, M Liu, L Yang, M Liu
Journal of Energy Chemistry 22 (4), 555-559, 2013
A more efficient anode microstructure for SOFCs based on proton conductors
BH Rainwater, M Liu, M Liu
international journal of hydrogen energy 37 (23), 18342-18348, 2012
High-performance cathode-supported SOFCs prepared by a single-step co-firing process
M Liu, D Dong, F Zhao, J Gao, D Ding, X Liu, G Meng
Journal of Power Sources 182 (2), 585-588, 2008
YSZ-based SOFC with modified electrode/electrolyte interfaces for operating at temperature lower than 650 C
M Liu, D Dong, R Peng, J Gao, J Diwu, X Liu, G Meng
Journal of Power Sources 180 (1), 215-220, 2008
In situ probing of the mechanisms of coking resistance on catalyst-modified anodes for solid oxide fuel cells
X Li, M Liu, SY Lai, D Ding, M Gong, JP Lee, KS Blinn, Y Bu, Z Wang, ...
Chemistry of Materials 27 (3), 822-828, 2015
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