Maria Forsyth
Cited by
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Energy applications of ionic liquids
DR MacFarlane, N Tachikawa, M Forsyth, JM Pringle, PC Howlett, ...
Energy & Environmental Science 7 (1), 232-250, 2014
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
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
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
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
Lithium-doped plastic crystal electrolytes exhibiting fast ion conduction for secondary batteries
DR MacFarlane, J Huang, M Forsyth
Nature 402 (6763), 792-794, 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
A review of ionic liquid lubricants
AE Somers, PC Howlett, DR MacFarlane, M Forsyth
Lubricants 1 (1), 3-21, 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
Low viscosity ionic liquids based on organic salts of the dicyanamide anion
DR MacFarlane, J Golding, S Forsyth, M Forsyth, GB Deacon
Chemical communications, 1430-1431, 2001
High rates of oxygen reduction over a vapor phase–polymerized PEDOT electrode
B Winther-Jensen, O Winther-Jensen, M Forsyth, DR MacFarlane
Science 321 (5889), 671-674, 2008
High conductivity molten salts based on the imide ion
DR McFarlane, J Sun, J Golding, P Meakin, M Forsyth
Electrochimica Acta 45 (8-9), 1271-1278, 2000
Plastic crystal electrolyte materials: new perspectives on solid state ionics
DR MacFarlane, M Forsyth
Advanced materials 13 (12‐13), 957-966, 2001
Diffusion layer parameters influencing optimal fuel cell performance
LR Jordan, AK Shukla, T Behrsing, NR Avery, BC Muddle, M Forsyth
Journal of Power sources 86 (1-2), 250-254, 2000
Electrochemical performance of polyaniline nanofibres and polyaniline/multi-walled carbon nanotube composite as an electrode material for aqueous redox supercapacitors
SR Sivakkumar, WJ Kim, JA Choi, DR MacFarlane, M Forsyth, DW Kim
Journal of power sources 171 (2), 1062-1068, 2007
Characterization of the lithium surface in N-methyl-N-alkylpyrrolidinium bis (trifluoromethanesulfonyl) amide room-temperature ionic liquid electrolytes
PC Howlett, N Brack, AF Hollenkamp, M Forsyth, DR Macfarlane
Journal of the electrochemical society 153 (3), A595, 2006
Protein solubilising and stabilising ionic liquids
K Fujita, DR MacFarlane, M Forsyth
Chemical communications, 4804-4806, 2005
Solubility and stability of cytochrome c in hydrated ionic liquids: effect of oxo acid residues and kosmotropicity
K Fujita, DR MacFarlane, M Forsyth, M Yoshizawa-Fujita, K Murata, ...
Biomacromolecules 8 (7), 2080-2086, 2007
Lewis base ionic liquids
DR MacFarlane, JM Pringle, KM Johansson, SA Forsyth, M Forsyth
Chemical communications, 1905-1917, 2006
Use of ionic liquids as electrolytes in electromechanical actuator systems based on inherently conducting polymers
J Ding, D Zhou, G Spinks, G Wallace, S Forsyth, M Forsyth, D MacFarlane
Chemistry of materials 15 (12), 2392-2398, 2003
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