| High-performance germanium nanowire-based lithium-ion battery anodes extending over 1000 cycles through in situ formation of a continuous porous network T Kennedy, E Mullane, H Geaney, M Osiak, C O’Dwyer, KM Ryan Nano letters 14 (2), 716-723, 2014 | 433 | 2014 |
| Synthesis of tin catalyzed silicon and germanium nanowires in a solvent–vapor system and optimization of the seed/nanowire interface for dual lithium cycling E Mullane, T Kennedy, H Geaney, C Dickinson, KM Ryan Chemistry of Materials 25 (9), 1816-1822, 2013 | 109 | 2013 |
| Atomically abrupt silicon–germanium axial heterostructure nanowires synthesized in a solvent vapor growth system H Geaney, E Mullane, QM Ramasse, KM Ryan Nano letters 13 (4), 1675-1680, 2013 | 79 | 2013 |
| A rapid, solvent-free protocol for the synthesis of germanium nanowire lithium-ion anodes with a long cycle life and high rate capability E Mullane, T Kennedy, H Geaney, KM Ryan ACS applied materials & interfaces 6 (21), 18800-18807, 2014 | 66 | 2014 |
| High density growth of indium seeded silicon nanowires in the vapor phase of a high boiling point solvent H Geaney, T Kennedy, C Dickinson, E Mullane, A Singh, F Laffir, ... Chemistry of Materials 24 (11), 2204-2210, 2012 | 62 | 2012 |
| Solution phase synthesis of silicon and germanium nanowires H Geaney, E Mullane, KM Ryan Journal of Materials Chemistry C 1 (33), 4996-5007, 2013 | 43 | 2013 |
| Growth of crystalline copper silicide nanowires in high yield within a high boiling point solvent system H Geaney, C Dickinson, C O’Dwyer, E Mullane, A Singh, KM Ryan Chemistry of Materials 24 (22), 4319-4325, 2012 | 43 | 2012 |
| Size controlled growth of germanium nanorods and nanowires by solution pyrolysis directly on a substrate E Mullane, H Geaney, KM Ryan Chemical Communications 48 (44), 5446-5448, 2012 | 22 | 2012 |
| Synthesis of silicon–germanium axial nanowire heterostructures in a solvent vapor growth system using indium and tin catalysts E Mullane, H Geaney, KM Ryan Physical Chemistry Chemical Physics 17 (10), 6919-6924, 2015 | 18 | 2015 |
| Ion Battery Anodes Extending over 1000 Cycles Through in Situ Formation of a Continuous Porous Network T Kennedy, E Mullane, H Geaney, M Osiak, C O'Dwyer, KM Ryan, ... Nano Letters 14 (2), 716-723, 2014 | 8 | 2014 |
| High density and patternable growth of silicon, germanium and alloyed SiGe nanowires by a rapid anneal protocol M Bezuidenhout, T Kennedy, S Belochapkine, Y Guo, E Mullane, PA Kiely, ... Journal of Materials Chemistry C 3 (28), 7455-7462, 2015 | 7 | 2015 |
| GREENLION Project: Advanced Manufacturing Processes for Low Cost Greener Li-Ion Batteries in Electric Vehicle Batteries: Moving from Research toward Innovation O Miguel, I Cendoya, GT Kim, N Löffler, N Laszczynski, S Passerini, ... Book ID, 2014 | 6 | 2014 |
| GREENLION Project: Advanced manufacturing processes for low cost greener Li-ion batteries I de Meatza, O Miguel, I Cendoya, GT Kim, N Löffler, N Laszczynski, ... Electric Vehicle Batteries: Moving from Research towards Innovation: Reports …, 2015 | 3 | 2015 |
| Method of fabricating an electrode structure having a continuous porous network nanostructure by electrochemical cycling KM Ryan, T Kennedy, E Mullane US Patent 11,075,370, 2021 | 1 | 2021 |
| Silicon or Germanium Network Structure for Use as an Anode in a Battery KM Ryan, T Kennedy, E Mullane US Patent App. 14/594,548, 2016 | 1 | 2016 |
| Germanium Nanowire Based Lithium-Ion Anode Exhibiting a Stable and High Capacity Over 1000 Cycles T Kennedy, E Mullane, H Geaney, M Osiak, C O'Dwyer, KM Ryan Electrochemical Society Meeting Abstracts imlb2014, 446-446, 2014 | | 2014 |
| A New, Rapid Approach for the Synthesis of Germanium Nanowire Based Li-Ion Battery Anodes and Their Excellent Performance over Extended Cycles E Mullane, T Kennedy, KM Ryan Electrochemical Society Meeting Abstracts imlb2014, 412-412, 2014 | | 2014 |
| Nanowires, nanorods and axial heterostructures of silicon and germanium synthesised in a solvent vapour system E Mullane University of Limerick, 2013 | | 2013 |
Hugh GeaneyAssociate Professor, Department of Chemical Sciences & Bernal Institute, University of LimerickZweryfikowany adres z ul.ie