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Electrochimie Moléculaire et Photochimie Redox

Overview 

The EMPRe team conducts research in the field of molecular electrochemistry and redox photochemistry toward the understanding of bond activation trigerred by electron transfer. Within this framework, we are developing and analyzing electrochemical and photoinduced redox catalytic processes in homogeneous solution and on surfaces. Students in the EMPRe team are trained in synthesis of ligands, transition metal complexes or organic dyes. Then, they apply methods of molecular electrochemistry (cyclic voltammetry, electrolysis), spectroelectrochemistrysurface modification (electropolymerization, electrodeposition) to study mechanisms of electro/photo-catalytic processes. In this context, we are investigating in particular small molecules activation (such as H2O, CO2, N2O) as well as proton-coupled electron transfer processes... To provide a rational approach to mechanistic study and an inteligent design of molecular catalysts, we are developing kinetic and theoretical models related to cyclic voltammetry and electro-photo-catalytic processes.

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Permanent researchers

Sylvie Chardon (DR CNRS), Marie-Noëlle Collomb (DR CNRS), Cyrille Costentin (PR UGA), Jérôme Fortage (CR CNRS)

Awards

2024 Master 2 internship Prize from the Electrochemistry Subdivision of the Société Chimique de France awarded to Margaux Willery

2024 Jaroslav Heyrovsky Prize for Molecular Electrochemistry from the International Society of Electrochemistry awarded to Cyrille Costentin ("for fundamental studies explaining a general framework of PCET catalysts operation in particular in relation to small molecules activation")

2023 Innovation Prize from the Division Chimie Physique of the Société Chimique de France awarded to Marie-Noëlle Collomb and her team


2023 Master 1 internship Prize from the Electrochemistry Subdivision of the Société Chimique de France awarded to Alexandra Collard


2022 Senior Researcher Prize from the Division Chimie Physique of the Société Chimique de France awarded to Cyrille Costentin

 

Research activities

Proton Relays in Molecular Catalysis for Hydrogen Evolution and Oxidation: Lessons From the Mimicry of Hydrogenases and Electrochemical Kinetic Analyses.
M. Haake, B. Reuillard, M. Chavarot-Kerlidou, H,  C. Costentin*, V. Artero*
Angew. Chem. Int. Ed., 2024, e202413910
10.1021/anie-202413910

 

A  Straightforward  Model for Quantifying Local pH Gradients Governing the Oxygen Evolution Reaction.
S. S. Veroneau, A. C. Hartnett, J. Ryu, H. Hong, H,  C. Costentin*, D. G. Nocera*
J. Am. Chem. Soc., 2024, 146, 28925-28931
10.1021/jacs-4c09521

 

Redox-Detecting Deep Learning for Mechanism Discernment in Cyclic Voltammograms of Multiple Redox Events.
B. B. Hoar, W. Zhang, Y. Chen, J. Sun, H. Sheng, Y. Zhang, Y. Chen, J. Yang,  C. Costentin*, Q. Gu*, C. Liu*
ACS Electrochem., 2024, xx, XXXX-XXXX
10.1021/acselectrochem.4c00014

 

Iron(I) Tetraphenylporphyrin Is an Active Catalyst in Reductive Deoxygenation When Switching from CO2 to Isoelectronic N2O.
C. Chartier, R. Deeba, A. Collard, S. Chardon-Noblat, C. Costentin*
ACS Catal., 2024, 14, 14509-14516
10.1021/acscatal.4c05259

 

Mechanism of Electrochemical Proton Reduction Catalyzed by a Cobalt Tetraaza Schiff Base Macrocyclic Complex: Ligand Protonation and/or Influence of the Chloro Ligand.
M. Willery, P.-G. Julliard, F. Molton, F. Thomas, J. Fortage*, C. Costentin*, M.-N. Collomb*
ACS Catal., 2024, 14, 11352-11365
10.1021/acscatal.4c0361 

 

Redox Behavior and Kinetics of Hydroxo Ligand Exchange on Iron Tetraphenylporphyrin: Comparison with Chloro Exchange and Consequences for its Role in Self-Modulation of Molecular Catalysis of Electrochemical Reactions.
C. Chartier, S. Chardon-Noblat, C. Costentin*
Inorg. Chem., 2024, 63, 7541-7548
10.1021/acs.inorgchem.4c00825

Autonomous closed-loop mechanistic investigation of molecular electrochemistry via automation.
H. Sheng, J. Sun, O. Rodriguez, B. B. Hoar, W. Zhang, D. Xiang, T. Tang, A. Hazra, D. S. Min, A. G. Doyle, M. S. Sigman, C. Costentin, Q. Gu, J. Rodriguez-Lopez, C. Liu*
Nat. Commun., 2024, 15, 2781-2791
10.1038/s41467-024-47210-x

Turnover Number in Photoinduced Molecular Catalysis of Hydrogen Evolution: a Benchmarking of Catalysts?
J. Fortage, M. N. Collomb, C. Costentin*
ChemSusChem, 2024, 0202400205
10.1002/cssc.202400205

Enhancing the stability of photocatalytic systems for hydrogen evolution in water by using a tris-phenyl-phenanthroline sulfonate ruthenium photosensitizer.
F. Camara, J. S. Aguirre-Araque, J. Fortage*, M-N. Collomb*
Sustainable Energy Fuels, 2024, 8, 1457-1472
10.1039/d3se01556d

Cyclic Voltammetry to Study Dynamics of Ion Insertion in Porous Materials.
C. Costentin*
Adv. Energy Sustainability Res., 2023, 2300242
10.1002/aesr.202300242

Controlled Potential Electrolysis: Transition from Fast to Slow Regimes in Homogeneous Molecular Catalysis. Application to the Electroreduction of CO2 Catalyzed by Iron Porphyrin.
R. Deeba, A. Collard, C. Rollin, F. Molton, S. Chardon-Noblat, C. Costentin*
ChemElectroChem, 2023, e202300350
10.1002/celc.202300350

Hybrid catalyst to the rescue.
C. Costentin*
Nat. Synth., 2023
10.1038/s44160-023-00391-7

Importance of Ligand Exchange in the Modulation of Molecular Catalysis: Mechanism of the Electrochemical Reduction of Nitrous Oxide with Rhenium Bipyridyl Carbonyl Complexes.
R. Deeba, S. Chardon-Noblat*, C. Costentin*
ACS Catal., 2023, 13, 8262-8272
10.1021/acscatal.3c01495

Deciphering Reversible Homogeneous Catalysis of the Electrochemical H2 Evolution and Oxidation: Role of Proton Relays and Local Concentration Effects.
B. Reuillard, C. Costentin*, V. Artero*
Angew. Chem. Int. Ed., 2023, e202302779
10.1002/anie.202302779

Disulfide radical anion as a super-reductant in biology and photoredox chemistry.
Q. Zhu*, C. Costentin, J. Stubbe, D. G. Nocera*
Chem. Sci., 2023, 14, 6876-6881
10.1039/D3SC01867A

Enhanced activity for the oxygen reduction reaction in microporous water.
A. E. Thorarinsdottir, D. Erdosy, C. Costentin*, J. A. Mason*, D. G. Nocera*
Nat. Catal., 2023, 6, 425-434
10.1038/s41929-023-00958-9

Behavior of Iron Tetraphenylsulfonato Porphyrin Intercalated into LDH and LSH as Materials for Electrocatalytic Applications.
A. Tarhini, J. Aguirre-Araque, M. Guyot, C. Costentin, R. Rogez*, S. Chardon-Noblat*, V. Prevot, C. Mousty*
Electrocatalysis, 2023, 14, 111-120
10.1007/s12678-022-00778-8

Electrochemical properties of a Rhodium(III) mono-terpyridyl complex and use as a catalyst for light-driven hydrogen evolution in water.
F. Camara,T. Gavaggio B. Dautreppe, J. Chauvin, J. Pécaut, D. Aldakov, M.-N. Collomb*, J. Fortage*
Molecules, 2022, 27(19), 6614
10.3390/molecules27196614 
hal.archives-ouvertes.fr/hal-03808904

Effect of Substituents Mimicking Anchorage of Rhenium Carbonyl Bipyridine Molecular Catalysts on CO2 Electroreduction
M. Guyot, M-N. Lalloz, J. S. Aguirre-Araque, G. Rogez, C. Costentin*, S. Chardon-Noblat*
Inorg. Chem., 2022, 61, 16072-16080
10.1021/acs.inorgchem.2c02473

Electrochemical Mechanistic Analysis from Cyclic Voltammograms Based on Deep Learning.
B. B. Hoar, W. Zhang, S. Xu, R. Deeba, C. Costentin*, Q. Gu*, C.Liu*
ACS Meas. Sci. Au, 2022, 2, 55-604
10.1021/acsmeasuresciau.2c00045

Photochromic Metallopolymer Based on Dithienylethene as a Molecular Calculator.
E. Chatir, A. Khettabi, F. Lafolet, D. Jouvenot, G. Royal, E. Saint-Aman, S. Cobo*
Chem. Mater., 2022, 34, 5912-5918
10.1021/acs.chemmater.2c00819

Photoinduced Catalysis of Redox Reactions, Turnover Numbers, Turnover Frequency and Limiting Processes: Kinetic Analysis and Application to Light-Driven Hydrogen Production.
C. Costentin*, F. Camara, J. Fortage, M.-N. Collomb
ACS Catal.. 2022, 12, 6246-6254.
10.1021/acscatal.2c01289
hal.archives-ouvertes.fr/hal-03766011

Proton Coupled Electron Transfer of Macrocyclic Ring Hydrogenation: The Chlorinphlorin.
R. Sun, M. Liu, S-L. Zheng, K. D. Dogutan*, C. Costentin*, D. G. Nocera*
Proc.Natl. Acad. Sci USA, 2022, 119, e2122063119
10.1073/pnas.2122063119

Photoredox Processes in the Aggregation and Gelation of Electron- Responsive Supramolecular Polymers Based on Viologens
C. Roizard, V. Andrieux, S. Al Shehimy, S. Chowdhury, Q. Reynard-Feytis, C. Kahlfuss, E. Saint-Aman, F. Chevallier, C. Bucher*, T. Gibaud*, D. Frath*
ECS Adv., 2022, 1, 020502
10.1149/2754-2734/ac6ad4

p-Block Metal-Oxide Noninnocence in the Oxygen Evolution Reaction in Acid: The Case of Bismuth Oxide.
A. E. Thorarinsdottir, C. Costentin, S. S. Veroneau, D. G. Nocera*
Chem. Mater., 2022, 34, 826-835
10.1021/acs.chemmater.1c03801

Publié le 21 mars 2018

Mis à jour le 18 novembre 2024