| Nanomaterials and technologies for low temperature solid oxide fuel cells: recent advances, challenges and opportunities L Fan, B Zhu, PC Su, C He Nano Energy 45, 148-176, 2018 | 479 | 2018 |
| Functional ceria–salt-composite materials for advanced ITSOFC applications B Zhu Journal of Power sources 114 (1), 1-9, 2003 | 367 | 2003 |
| Shaping triple-conducting semiconductor BaCo0.4Fe0.4Zr0.1Y0.1O3-δ into an electrolyte for low-temperature solid oxide fuel cells C Xia, Y Mi, B Wang, B Lin, G Chen, B Zhu Nature communications 10 (1), 1707, 2019 | 321 | 2019 |
| Recent development of ceria-based (nano) composite materials for low temperature ceramic fuel cells and electrolyte-free fuel cells L Fan, C Wang, M Chen, B Zhu Journal of Power Sources 234, 154-174, 2013 | 306 | 2013 |
| Innovative low temperature SOFCs and advanced materials B Zhu, XT Yang, J Xu, ZG Zhu, SJ Ji, MT Sun, JC Sun Journal of Power Sources 118 (1-2), 47-53, 2003 | 288 | 2003 |
| 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 | 271 | 2008 |
| A brief description of high temperature solid oxide fuel cell’s operation, materials, design, fabrication technologies and performance M Irshad, K Siraj, R Raza, A Ali, P Tiwari, B Zhu, A Rafique, A Ali, ... Applied Sciences 6 (3), 75, 2016 | 254 | 2016 |
| Fast ionic conduction in semiconductor CeO2-δ electrolyte fuel cells B Wang, B Zhu, S Yun, W Zhang, C Xia, M Afzal, Y Cai, Y Liu, Y Wang, ... NPG Asia Materials 11 (1), 51, 2019 | 241 | 2019 |
| 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 | 222 | 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 | 221 | 2015 |
| Innovative solid carbonate–ceria composite electrolyte fuel cells B Zhu, X Liu, P Zhou, X Yang, Z Zhu, W Zhu Electrochemistry communications 3 (10), 566-571, 2001 | 207 | 2001 |
| Proton Shuttles in CeO2/CeO2−δ Core–Shell Structure Y Xing, Y Wu, L Li, Q Shi, J Shi, S Yun, M Akbar, B Wang, JS Kim, B Zhu ACS Energy Letters 4 (11), 2601-2607, 2019 | 206 | 2019 |
| Advantages of intermediate temperature solid oxide fuel cells for tractionary applications B Zhu Journal of Power Sources 93 (1-2), 82-86, 2001 | 197 | 2001 |
| An electrolyte‐free fuel cell constructed from one homogenous layer with mixed conductivity B Zhu, R Raza, G Abbas, M Singh Advanced Functional Materials 21 (13), 2465-2469, 2011 | 191 | 2011 |
| Solid oxide fuel cell (SOFC) technical challenges and solutions from nano‐aspects B Zhu International journal of energy research 33 (13), 1126-1137, 2009 | 187 | 2009 |
| 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 | 180 | 2016 |
| Breakthrough fuel cell technology using ceria-based multi-functional nanocomposites B Zhu, L Fan, P Lund Applied energy 106, 163-175, 2013 | 164 | 2013 |
| 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 | 164 | 2010 |
| Theoretical approach on ceria-based two-phase electrolytes for low temperature (300–600° C) solid oxide fuel cells B Zhu, S Li, BE Mellander Electrochemistry Communications 10 (2), 302-305, 2008 | 159 | 2008 |
| Electrochemical and electrical properties of doped CeO2-ZnO composite for low-temperature solid oxide fuel cell applications Z Qiao, C Xia, Y Cai, M Afzal, H Wang, J Qiao, B Zhu Journal of Power Sources 392, 33-40, 2018 | 149 | 2018 |
Dr. Rizwan RazaProfessor (Tenured): COMSATS University Islamabad, Lahore CampusZweryfikowany adres z cuilahore.edu.pk