| Prussian blue analogs as battery materials K Hurlbutt, S Wheeler, I Capone, M Pasta Joule 2 (10), 1950-1960, 2018 | 515 | 2018 |
| Paving the way toward highly efficient, high-energy potassium-ion batteries with ionic liquid electrolytes M Fiore, S Wheeler, K Hurlbutt, I Capone, J Fawdon, R Ruffo, M Pasta Chemistry of Materials 32 (18), 7653-7661, 2020 | 96 | 2020 |
| Effect of the particle-size distribution on the electrochemical performance of a red phosphorus–carbon composite anode for sodium-ion batteries I Capone, K Hurlbutt, AJ Naylor, AW Xiao, M Pasta Energy & Fuels 33 (5), 4651-4658, 2019 | 44 | 2019 |
| Elucidating the formation and structural evolution of platinum single-site catalysts for the hydrogen evolution reaction P Tang, HJ Lee, K Hurlbutt, PY Huang, S Narayanan, C Wang, D Gianolio, ... ACS catalysis 12 (5), 3173-3180, 2022 | 28 | 2022 |
| A new solid-state sodium-metal battery S Wheeler, K Hurlbutt, M Pasta Chem 4 (4), 666-668, 2018 | 24 | 2018 |
| Filling vacancies in a Prussian blue analogue using mechanochemical post-synthetic modification J Cattermull, S Wheeler, K Hurlbutt, M Pasta, AL Goodwin Chemical Communications 56 (57), 7873-7876, 2020 | 20 | 2020 |
| Uncovering the Interplay of Competing Distortions in the Prussian Blue Analogue K2Cu[Fe(CN)6] J Cattermull, K Sada, K Hurlbutt, SJ Cassidy, M Pasta, AL Goodwin Chemistry of Materials 34 (11), 5000-5008, 2022 | 17 | 2022 |
| Prussian blue analogs as battery materials, Joule 2 (2018) 1950–1960 K Hurlbutt, S Wheeler, I Capone, M Pasta | 17 | |
| Origin of the high specific capacity in sodium manganese hexacyanomanganate K Hurlbutt, F Giustino, G Volonakis, M Pasta Chemistry of Materials 34 (10), 4336-4343, 2022 | 14 | 2022 |
| Electronic structure and electron-transport properties of three metal hexacyanoferrates K Hurlbutt, F Giustino, M Pasta, G Volonakis Chemistry of Materials 33 (17), 7067-7074, 2021 | 14 | 2021 |
| Prussian blue analogs as battery materials. Joule 2: 1950–1960 K Hurlbutt, S Wheeler, I Capone, M Pasta | 6 | 2018 |
| Revealing the structural complexity of Prussian blue analogues: the case of K2Cu [Fe (CN) 6] J Cattermull, K Sada, K Hurlbutt, S Cassidy, M Pasta, A Goodwin | 1 | 2022 |
| A high-voltage potassium-ion battery with a potassium manganese hexacyanoferrate cathode S Wheeler, M Fiore, K Hurlbutt, I Capone, J Fawdon, M Pasta Electrochemical Society Meeting Abstracts 239, 359-359, 2021 | 1 | 2021 |
| Nonaqueous Synthesis of Low-Vacancy Chromium Hexacyanochromate M Schart, R Torres-Cavanillas, S Wheeler, K Hurlbutt, P Manuel, ... Inorganic Chemistry, 2024 | | 2024 |
| Modeling the Prussian blue analogs from first principles for battery applications K Hurlbutt University of Oxford, 2021 | | 2021 |
| Ionic Liquid Electrolytes Enabling the Development of Highly Efficient High-Voltage Potassium-Ion Full Cells with a Potassium Manganese Hexacyanoferrate Cathode S Wheeler, M Fiore, K Hurlbutt, I Capone, J Fawdon, R Ruffo, M Pasta Electrochemical Society Meeting Abstracts 237, 503-503, 2020 | | 2020 |
| Electronic Supporting Information The Effect of Particle Size Distribution on the Electrochemical Performance of a Red Phosphorus-Carbon Composite Anode for Sodium-Ion Batteries I Capone, K Hurlbutt, AJ Naylor, AW Xiaoa, M Pasta | | |