Ionic-liquid materials for the electrochemical challenges of the future M Armand, F Endres, DR MacFarlane, H Ohno, B Scrosati Nature materials 8 (8), 621-629, 2009 | 5312 | 2009 |
Energy applications of ionic liquids DR MacFarlane, N Tachikawa, M Forsyth, JM Pringle, PC Howlett, ... Energy & Environmental Science 7 (1), 232-250, 2014 | 1834 | 2014 |
Vitrification as an approach to cryopreservation GM Fahy, DR MacFarlane, CA Angell, HT Meryman Cryobiology 21 (4), 407-426, 1984 | 1648 | 1984 |
Use of ionic liquids for π-conjugated polymer electrochemical devices W Lu, AG Fadeev, B Qi, E Smela, BR Mattes, J Ding, GM Spinks, ... Science 297 (5583), 983-987, 2002 | 1465 | 2002 |
Pyrrolidinium imides: a new family of molten salts and conductive plastic crystal phases DR Macfarlane, P Meakin, J Sun, N Amini, M Forsyth The Journal of Physical Chemistry B 103 (20), 4164-4170, 1999 | 1334 | 1999 |
Challenges and prospects in the catalysis of electroreduction of nitrogen to ammonia BHR Suryanto, HL Du, D Wang, J Chen, AN Simonov, DR MacFarlane Nature Catalysis 2 (4), 290-296, 2019 | 1291 | 2019 |
Introduction: ionic liquids Z Lei, B Chen, YM Koo, DR MacFarlane Chemical Reviews 117 (10), 6633-6635, 2017 | 1255 | 2017 |
Electrodeposition from ionic liquids F Endres, A Abbott, DR MacFarlane John Wiley & Sons, 2017 | 1191 | 2017 |
A roadmap to the ammonia economy DR MacFarlane, PV Cherepanov, J Choi, BHR Suryanto, RY Hodgetts, ... Joule 4 (6), 1186-1205, 2020 | 1176 | 2020 |
Ionic liquids in electrochemical devices and processes: managing interfacial electrochemistry DR MacFarlane, M Forsyth, PC Howlett, JM Pringle, J Sun, G Annat, ... Accounts of chemical research 40 (11), 1165-1173, 2007 | 833 | 2007 |
On the concept of ionicity in ionic liquids DR MacFarlane, M Forsyth, EI Izgorodina, AP Abbott, G Annat, K Fraser Physical Chemistry Chemical Physics 11 (25), 4962-4967, 2009 | 810 | 2009 |
Ionic liquids—an overview SA Forsyth, JM Pringle, DR MacFarlane Australian Journal of Chemistry 57 (2), 113-119, 2004 | 795 | 2004 |
Promoting nitrogen electroreduction to ammonia with bismuth nanocrystals and potassium cations in water YC Hao, Y Guo, LW Chen, M Shu, XY Wang, TA Bu, WY Gao, N Zhang, ... Nature Catalysis 2 (5), 448-456, 2019 | 731 | 2019 |
Lithium-doped plastic crystal electrolytes exhibiting fast ion conduction for secondary batteries DR MacFarlane, J Huang, M Forsyth Nature 402 (6763), 792-794, 1999 | 717 | 1999 |
Room-temperature molten salts based on the quaternary ammonium ion J Sun, M Forsyth, DR Macfarlane The journal of physical chemistry B 102 (44), 8858-8864, 1998 | 697 | 1998 |
A review of ionic liquid lubricants AE Somers, PC Howlett, DR MacFarlane, M Forsyth Lubricants 1 (1), 3-21, 2013 | 655 | 2013 |
Ionic liquids and their solid-state analogues as materials for energy generation and storage DR MacFarlane, M Forsyth, PC Howlett, M Kar, S Passerini, JM Pringle, ... Nature Reviews Materials 1 (2), 1-15, 2016 | 628 | 2016 |
Hierarchical Mesoporous SnO2 Nanosheets on Carbon Cloth: A Robust and Flexible Electrocatalyst for CO2 Reduction with High Efficiency and Selectivity F Li, L Chen, GP Knowles, DR MacFarlane, J Zhang Angewandte chemie international edition 56 (2), 505-509, 2017 | 606 | 2017 |
High lithium metal cycling efficiency in a room-temperature ionic liquid PC Howlett, DR MacFarlane, AF Hollenkamp Electrochemical and solid-state letters 7 (5), A97, 2004 | 597 | 2004 |
Ionic liquids based on imidazolium, ammonium and pyrrolidinium salts of the dicyanamide anion DR Macfarlane, SA Forsyth, J Golding, GB Deacon Green Chemistry 4 (5), 444-448, 2002 | 597 | 2002 |