Novel core–shell SDC/amorphous Na2CO3 nanocomposite electrolyte for low-temperature SOFCs X Wang, Y Ma, R Raza, M Muhammed, B Zhu Electrochemistry Communications 10 (10), 1617-1620, 2008 | 269 | 2008 |
Ceria-based nanocomposite with simultaneous proton and oxygen ion conductivity for low-temperature solid oxide fuel cells X Wang, Y Ma, S Li, AH Kashyout, B Zhu, M Muhammed Journal of Power Sources 196 (5), 2754-2758, 2011 | 217 | 2011 |
Schottky junction effect on high performance fuel cells based on nanocomposite materials B Zhu, PD Lund, R Raza, Y Ma, L Fan, M Afzal, J Patakangas, Y He, ... Advanced Energy Materials 5 (8), 2015 | 215 | 2015 |
Novel fuel cell with nanocomposite functional layer designed by perovskite solar cell principle B Zhu, Y Huang, L Fan, Y Ma, B Wang, C Xia, M Afzal, B Zhang, W Dong, ... Nano Energy 19, 156-164, 2016 | 176 | 2016 |
Improved ceria–carbonate composite electrolytes R Raza, X Wang, Y Ma, X Liu, B Zhu International Journal of Hydrogen Energy 35 (7), 2684-2688, 2010 | 161 | 2010 |
Samarium‐doped ceria nanowires: novel synthesis and application in low‐temperature solid oxide fuel cells Y Ma, X Wang, S Li, MS Toprak, B Zhu, M Muhammed Advanced materials 22 (14), 1640-1644, 2010 | 146 | 2010 |
Review and analysis of characterization methods and ionic conductivities for low-temperature solid oxide fuel cells (LT-SOFC) J Patakangas, Y Ma, Y Jing, P Lund Journal of Power Sources 263, 315-331, 2014 | 135 | 2014 |
A fuel cell with a single component functioning simultaneously as the electrodes and electrolyte B Zhu, Y Ma, X Wang, R Raza, H Qin, L Fan Electrochemistry communications 13 (3), 225-227, 2011 | 116 | 2011 |
Industrial-grade rare-earth and perovskite oxide for high-performance electrolyte layer-free fuel cell C Xia, B Wang, Y Ma, Y Cai, M Afzal, Y Liu, Y He, W Zhang, W Dong, J Li, ... Journal of Power Sources 307, 270-279, 2016 | 108 | 2016 |
Thermal stability study of SDC/Na2CO3 nanocomposite electrolyte for low-temperature SOFCs Y Ma, X Wang, R Raza, M Muhammed, B Zhu International journal of hydrogen energy 35 (7), 2580-2585, 2010 | 99 | 2010 |
State of the art ceria-carbonate composites (3C) electrolyte for advanced low temperature ceramic fuel cells (LTCFCs) X Wang, Y Ma, B Zhu International journal of hydrogen energy 37 (24), 19417-19425, 2012 | 84 | 2012 |
Study on calcium and samarium co-doped ceria based nanocomposite electrolytes R Raza, X Wang, Y Ma, B Zhu Journal of Power Sources 195 (19), 6491-6495, 2010 | 75 | 2010 |
Understanding the electrochemical mechanism of the core–shell ceria–LiZnO nanocomposite in a low temperature solid oxide fuel cell L Fan, Y Ma, X Wang, M Singh, B Zhu Journal of Materials Chemistry A 2 (15), 5399-5407, 2014 | 73 | 2014 |
High performance transition metal oxide composite cathode for low temperature solid oxide fuel cells L Fan, B Zhu, M Chen, C Wang, R Raza, H Qin, X Wang, X Wang, Y Ma Journal of Power Sources 203, 65-71, 2012 | 70 | 2012 |
ZnO/NiO nanocomposite electrodes for low-temperature solid oxide fuel cells R Raza, Q Liu, J Nisar, X Wang, Y Ma, B Zhu Electrochemistry communications 13 (9), 917-920, 2011 | 69 | 2011 |
A durable SWCNT/PET polymer foil based metal free counter electrode for flexible dye-sensitized solar cells SG Hashmi, T Moehl, J Halme, Y Ma, T Saukkonen, A Yella, F Giordano, ... Journal of Materials Chemistry A 2 (46), 19609-19615, 2014 | 56 | 2014 |
Enhanced ionic conductivity in calcium doped ceria–carbonate electrolyte: a composite effect Y Ma, X Wang, HA Khalifa, B Zhu, M Muhammed International journal of hydrogen energy 37 (24), 19401-19406, 2012 | 52 | 2012 |
An improved synthesis method of ceria-carbonate based composite electrolytes for low-temperature SOFC fuel cells Y Jing, J Patakangas, PD Lund, B Zhu International journal of hydrogen energy 38 (36), 16532-16538, 2013 | 51 | 2013 |
Electrochemical study of the composite electrolyte based on samaria-doped ceria and containing yttria as a second phase R Raza, G Abbas, X Wang, Y Ma, B Zhu Solid State Ionics 188 (1), 58-63, 2011 | 46 | 2011 |
A nanostructure anode (Cu0. 2Zn0. 8) for low-temperature solid oxide fuel cell at 400–600 C R Raza, X Wang, Y Ma, B Zhu Journal of Power Sources 195 (24), 8067-8070, 2010 | 45 | 2010 |