| PEDOT encapsulated FeOF nanorod cathodes for high energy lithium-ion batteries X Fan, C Luo, J Lamb, Y Zhu, K Xu, C Wang Nano letters 15 (11), 7650-7656, 2015 | 116 | 2015 |
| Industrialization of layered oxide cathodes for lithium‐ion and sodium‐ion batteries: a comparative perspective J Darga, J Lamb, A Manthiram Energy Technology 8 (12), 2000723, 2020 | 70 | 2020 |
| Tuning the solvation structure with salts for stable sodium-metal batteries J He, A Bhargav, L Su, J Lamb, J Okasinski, W Shin, A Manthiram Nature Energy 9 (4), 446-456, 2024 | 66 | 2024 |
| Synthesis control of layered oxide cathodes for sodium-ion batteries: a necessary step toward practicality J Lamb, A Manthiram Chemistry of Materials 32 (19), 8431-8441, 2020 | 57 | 2020 |
| Surface-Modified Na(Ni0.3Fe0.4Mn0.3)O2 Cathodes with Enhanced Cycle Life and Air Stability for Sodium-Ion Batteries J Lamb, A Manthiram ACS Applied Energy Materials 4 (10), 11735-11742, 2021 | 55 | 2021 |
| Molten‐salt synthesis of O3‐type layered oxide single crystal cathodes with controlled morphology towards long‐life sodium‐ion batteries J Lamb, K Jarvis, A Manthiram Small 18 (43), 2106927, 2022 | 52 | 2022 |
| Delineating the Capacity Fading Mechanisms of Na(Ni0.3Fe0.4Mn0.3)O2 at Higher Operating Voltages in Sodium-Ion Cells J Lamb, L Stokes, A Manthiram Chemistry of Materials 32 (17), 7389-7396, 2020 | 45 | 2020 |
| Stable sodium-based batteries with advanced electrolytes and layered-oxide cathodes J Lamb, A Manthiram ACS Applied Materials & Interfaces 14 (25), 28865-28872, 2022 | 20 | 2022 |
