Publications List
Peer reviewed articles
26) Ruscica N, Clark R, Stuart J, Mason A, Bennett C, Bertin E. NixFe100-x for urea and oxygen evolution: a matter of compromise. Canadian Journal of Chemistry, (2024) dx.doi.org/10.1139/cjc-2023-0130.
25) Mason, A., Clark, C., Stuart, J., Bennett, C. and E. Bertin*. Pairing CO2 electroreduction with the electrooxidation of pharmaceutical compounds in wastewater, Chemical Papers, 77: 7015-7025, doi.org/10.1007/s11696-023-02993-z.
24) Mason A, MacDonald K, Murphy W, Bennett C, Bertin E. Electroreduction of CO2 on bismuth nanoparticles in seawater. Journal of Applied Electrochemistry, (2023) 217–226.
23) MacPhee, J; Kinyenye, T.; MacLean, B.J.; Bertin, E. and G. Hallett-Tapley. Industrial and Engineering Chemistry Research, (2021) 17390-17398.
22) Clark, R.; Moore, A.; MacInnis, M. and E. Bertin. Investigation of urea oxidation as a potential anode reaction during CO2 electrolysis, Journal of Applied Electrochemistry, (2021) 1583-1590.
21) Willkomm, J.; Bouzidi, S.; Bertin, E. Birss, V.I. and W.E. Piers. Aqueous CO2 reduction by a Re(bipyridine) polypyrrole Film Deposited on Colloid-Imprinted Carbon. ACS Catalysis, (2021) 1181-1186.
20) Bertin, E.; Münzer, A.; Reichenberger, S.; Streubel, R.; Vinnay, T..; Wiggers, H.; Schulz, C.; Barcikowski,; Marzun, G. Durability Study of Platinum Nanoparticles Supported on Gas-Phase Synthesized Graphene in Oxygen Reduction Reaction Conditions, Applied Surface Science, (2019) 467-468: 1181-1186.
19) Willkomm, J.; Bertin, E.; Atwa, M.; Lin, J-B.; Birss, V.I. and W.E. Piers. Grafting of a Molecular Rhenium CO2Reduction Catalyst onto Colloid-Imprinted Carbon. Applied Energy Materials, (2019) 2: 2414-2418.
18) Waag, F.; Li, Y.; Ziefuß, A.R.; Bertin, E.; Kamp, M.; Duppel, V.; Marzun, G.; Kienle, L.; Barcikowski, S. and B. Gokce. Kinetically-controlled laser-synthesis of colloidal high-entropy alloy nanoparticles. RSC Advances, (2019) 9: 18547-18558.
17) Nzone-Fomena, N.; Garbarino, S.; Bertin, E.; Korinek, A.; Botton, G.A.; Roué, L.; Guay, D. Pt Nanostructures with Different Rh surface entities: impact on NH3 Electro-oxidation. Journal of Catalysis, 354 (2017) 270-277.
16) Sacre, N.; Hufnagerl, G.; Galipaud, J.; Bertin, E.; Hassan, S.A.; Duca, M.; Roué, L.; Ruediger, A.; Garbarino, S.; Guay, D. Pt Thick Films with Nanometer-Sized Terraces of (100) orientation, Journal of Physical Chemistry C, 121 (2017) 12188-12198.
15) Bertin, E.; Garbarino, S.; Roy, C.; Kazemi, S.;Guay, D. Selective Electroreduction of CO2 to formate on Bi and oxide-derived Bi films, Journal of CO2 Utilization, 19 (2017) 276-283.
14) Bertin, E.; Garbarino, S.; Guay, D. Interdigitated Microelectrodes for Oxygen Removal in NH3 sensors, Electrochemistry Communications, 71 (2016) 56-60.
13) Roy, C.; Deschamps, J.; Martin, M.H.; Bertin, E.; Garbarino, S.; Roué, L.; Guay, D. Identification of Cu Surface Active Sites for a Complete Nitrate to Nitrite Conversion with Nanostructured Catalysts, Applied Catalysis B: Environmental, 187 (2016) 399-407.
12) Bertin, E.; Garbarino, S.; Guay, D. Formic Acid Oxidation on Antimony-Covered Platinum Films with a preferential (100) orientation, Journal of Power Sources, 299 (2015) 325-323.
11) Finkelstein, D. A.; Bertin, E.; Garbarino, S.; Guay, D. Mechanistic Similarity in Catalytic N2 production from NH3 and NO2- at Pt(100) Thin Films: Toward a Universal Catalytic Pathway for Simple N-Containing Species, The Journal of Physical Chemistry C, 119 (2015), 9860-9878.
10) Bertin, E.; Fleury, A.; Roy, C.; Martin, M.H.; Garbarino, S.; Guay, D. Preferentially oriented Pt (100) thin film with less than a monolayer of Bi, Pd and Sb adatoms: application for formic acid oxidation, Electrochim. Acta, 162 (2015), 237-244.
9) Bertin, E.; Garbarino, S.; Guay, D. Formic acid oxidation on Bi covered Pt electrodeposited thin films: influence of the underlying structure, Electrochim Acta, 134 (2014), 486-495.
8) Bertin, E.; Garbarino, S.; Martin, M.H.; Guay, D. Bi Decoration of Pt Thin Films with a Preferential (100) Orientation, Mater. Res. Soc. Symp. Proc., 1491 (2013) 34-39.
7) Roy, C.; Bertin, E.; Martin, M.H.; Garbarino, S.; Guay, D. Hydrazine oxidation at porous and preferentially oriented {100} Pt thin films, Electrocatalysis, 4(2013), 76- 82.
6) Bertin, E.; Garbarino, S.; Guay, D.; Solla-Gullón, J.; Vidal-Iglesias, F. J.; Feliu, J. M. Electrodeposited Pt thin films with a preferential (100) orientation: characterisation and electrocatalytic properties for ammonia and formic acid oxidation, J. Power Sources, 225 (2013) 323-329.
5) Ponrouch, A.; Garbarino, S.; Bertin, E.; Guay, D. Ultra High Capacitance Values of Pt@RuO2 Core–Shell Nanotubular Electrodes for Microsupercapacitor Applications. J. Power Sources, 221 (2013) 228–231.
4) Bertin, E.; Roy, C.; Garbarino, S.; Guay, D.; Solla-Gullón, J.; Vidal-Iglesias, F. J.; Feliu, J. M. Effect of the Nature of (100) Surface Sites on the Electroactivity of Macroscopic Pt Electrodes for the Electrooxidation of Ammonia. Electrochem. Commun., 22 (2012) 197–199.
3) Ponrouch, A.; Garbarino, S.; Bertin, E.; Maunders, C.; Botton, G. A.; Guay, D. Highly Porous and Preferentially-Oriented {100} Pt Nanowires and Thin Films. Adv. Funct. Mater., 22 (2012) 4172-4181.
2) Bertin, E.; Garbarino, S.; Ponrouch, A.; Guay, D. Synthesis and Characterization of PtCo Nanowires for the Electro-Oxidation of Methanol. J. Power Sources, 206 (2012) 20–28.
1) Garbarino, S.; Ponrouch, A.; Bertin E.; Guay, D. Hydrazine Oxidation at Preferentially Oriented Pt (100) Nanowires Array Electrodes, Mater. Res. Soc. Symp. Proc., 1311 (2010) GG08-17.
Patents
2) E. Bertin, J. MacPhee, G. Hallett-Tapley and B.J. MacLean. Photoactivated Nanoparticles Thermal Treatment. US Provisional Patent, 63/170759, 2021
1) Bertin, E.*; Garbarino, S.; Guay, D.; Martin, M.H. and A. Ponrouch. “Method and system for synthesis of preferentially oriented Platinum, and oriented Platinum obtained thereby”, US Patent 9108843.