|High-performance electrocatalysts for oxygen reduction derived from polyaniline, iron, and cobalt|
G Wu, KL More, CM Johnston, P Zelenay
Science 332 (6028), 443-447, 2011
|Recent advances in non-precious metal catalysis for oxygen-reduction reaction in polymer electrolyte fuel cells|
F Jaouen, E Proietti, M Lefèvre, R Chenitz, JP Dodelet, G Wu, HT Chung, ...
Energy & Environmental Science 4 (1), 114-130, 2011
|Synthesis–structure–performance correlation for polyaniline–Me–C non-precious metal cathode catalysts for oxygen reduction in fuel cells|
G Wu, CM Johnston, NH Mack, K Artyushkova, M Ferrandon, M Nelson, ...
Journal of Materials Chemistry 21 (30), 11392-11405, 2011
|Multitechnique characterization of a polyaniline–iron–carbon oxygen reduction catalyst|
M Ferrandon, AJ Kropf, DJ Myers, K Artyushkova, U Kramm, P Bogdanoff, ...
The Journal of Physical Chemistry C 116 (30), 16001-16013, 2012
|A carbon-nanotube-supported graphene-rich non-precious metal oxygen reduction catalyst with enhanced performance durability|
G Wu, KL More, P Xu, HL Wang, M Ferrandon, AJ Kropf, DJ Myers, S Ma, ...
Chemical communications 49 (32), 3291-3293, 2013
|Cyanamide-derived non-precious metal catalyst for oxygen reduction|
HT Chung, CM Johnston, K Artyushkova, M Ferrandon, DJ Myers, ...
Electrochemistry Communications 12 (12), 1792-1795, 2010
|Stability of iron species in heat-treated polyaniline–iron–carbon polymer electrolyte fuel cell cathode catalysts|
M Ferrandon, X Wang, AJ Kropf, DJ Myers, G Wu, CM Johnston, ...
Electrochimica Acta 110, 282-291, 2013
|Nafion in dilute solvent systems: Dispersion or solution?|
C Welch, A Labouriau, R Hjelm, B Orler, C Johnston, YS Kim
ACS Macro Letters 1 (12), 1403-1407, 2012
|Graphene-riched Co9S8-NC non-precious metal catalyst for oxygen reduction in alkaline media|
G Wu, HT Chung, M Nelson, K Artyushkova, KL More, CM Johnston, ...
ECS transactions 41 (1), 1709, 2011
|Growth of ruthenium islands on Pt (hkl) electrodes obtained via repetitive spontaneous deposition|
A Crown, C Johnston, A Wieckowski
Surface science 506 (1-2), L268-L274, 2002
|In situ STM study of nanosized Ru and Os islands spontaneously deposited on Pt (1 1 1) and Au (1 1 1) electrodes|
S Strbac, CM Johnston, GQ Lu, A Crown, A Wieckowski
Surface science 573 (1), 80-99, 2004
|Aqueous-based synthesis of ruthenium–selenium catalyst for oxygen reduction reaction|
C Delacôte, A Bonakdarpour, CM Johnston, P Zelenay, A Wieckowski
Faraday discussions 140, 269-281, 2009
|Highly durable fuel cell electrodes based on ionomers dispersed in glycerol|
YS Kim, CF Welch, NH Mack, RP Hjelm, EB Orler, ME Hawley, KS Lee, ...
Physical Chemistry Chemical Physics 16 (13), 5927-5932, 2014
|Synthesis and evaluation of heat-treated, cyanamide-derived non-precious catalysts for oxygen reduction|
HT Chung, CM Johnston, P Zelenay
ECS Transactions 25 (1), 485, 2009
|Osmium nanoislands spontaneously deposited on a Pt (111) electrode: an XPS, STM and GIF-XAS study|
CK Rhee, M Wakisaka, YV Tolmachev, CM Johnston, R Haasch, ...
Journal of Electroanalytical Chemistry 554, 367-378, 2003
|Direct dimethyl ether fuel cell with much improved performance|
Q Li, G Wu, CM Johnston, P Zelenay
Electrocatalysis 5 (3), 310-317, 2014
|A non-precious electrocatalyst for oxygen reduction based on simple heat-treated precursors|
HT Chung, CM Johnston, FH Garzon, P Zelenay
ECS Transactions 16 (2), 385, 2008
|Characterization and methanol electrooxidation studies of Pt (111)/Os surfaces prepared by spontaneous deposition|
CM Johnston, S Strbac, A Lewera, E Sibert, A Wieckowski
Langmuir 22 (19), 8229-8240, 2006
|The effect of cathode structures on nafion membrane durability|
B Choi, DA Langlois, N Mack, CM Johnston, YS Kim
Journal of The Electrochemical Society 161 (12), F1154, 2014
|Impact of solvent on ionomer structure and fuel cell durability|
CM Johnston, KS Lee, T Rockward, A Labouriau, N Mack, YS Kim
ECS Transactions 25 (1), 1617, 2009