Source: http://www.icmub.com/en/members-en/quesneau-valentin.html
Timestamp: 2019-04-19 16:17:55+00:00

Document:
Engineer in chemistry from the National Higher Chemistry School of Rennes (France, graduated in 2015).
Master of Science with honors (Chemistry) from the University of Rennes I (France, graduated in 2015).
Ph. D. Thesis obtained in december 2018 at the University of Burgundy (Dijon, France), member of UBFC, directed by Prof. Claude Gros and entitled "Selective capture of carbon monoxide using cobalt corroles to design gas sensors".
Novel fluorogenic substrates for the detection of nerve agents (funding from ANR "DetectOP_BChE", sponsored by DGA (French Defence Procurement Agency)).
1. Shan, W.; Desbois, N.; Blondeau‐Patissier, V.; Naitana, M. L.; Quesneau, V.; Rousselin, Y.; Gros, C. P.; Ou, Z.; Kadish, K. M., Synthesis, Characterization, and Electrochemistry of Open‐Chain Pentapyrroles and Sapphyrins with Highly Electron‐Withdrawing meso‐Tetraaryl Substituents. Chem. - Eur. J., 2017,23, 12833.
2. Vanotti, M.; Theron, C.; Poisson, S.; Quesneau, V.; Naitana, M.; Soumann, V.; Brandès, S.; Desbois, N.; Gros, C.; Tran-Thi, T.-H.; Blondeau-Patissier, V., Surface Acoustic Wave Sensors for the Detection of Hazardous Compounds in Indoor Air. Proceedings, 2017,1, 444.
3. Jiang, X.; Naitana, M. L.; Desbois, N.; Quesneau, V.; Brandès, S.; Rousselin, Y.; Shan, W.; Osterloh, W. R.; Blondeau-Patissier, V.; Gros, C. P.; Kadish, K. M., Electrochemistry of Bis(pyridine)cobalt (Nitrophenyl)corroles in Nonaqueous Media. Inorg. Chem., 2018,57, 1226.
4. Jiang, X.; Shan, W.; Desbois, N.; Quesneau, V.; Brandes, S.; Caemelbecke, E. V.; Osterloh, W. R.; Blondeau-Patissier, V.; Gros, C. P.; Kadish, K. M., Mono-DMSO ligated cobalt nitrophenylcorroles: electrochemical and spectral characterization. New J. Chem., 2018,42, 8220.
5. Quesneau, V.; Shan, W.; Desbois, N.; Brandès, S.; Rousselin, Y.; Vanotti, M.; Blondeau-Patissier, V.; Naitana, M.; Fleurat-Lessard, P.; Van Caemelbecke, E.; Kadish, K. M.; Gros, C. P., Cobalt Corroles with Bis-Ammonia or Mono-DMSO Axial Ligands. Electrochemical, Spectroscopic Characterizations and Ligand Binding Properties. Eur. J. Inorg. Chem., 2018, 4265.
6. Shan, W.; Quesneau, V; Desbois, N.; Blondeau-Patissier, V; Naitana M.; Rousselin, Y.; Vanotti, M.; Gros, C. P.; Ou Z.; Kadish, K. M., Synthesis, electrochemistry, protonation and X-ray analysis of meso-aryl substituted open-chain pentapyrroles . J. Porphyrins Phthalocyanines., 2019,23, 1.
1) Quesneau, V. ; Naitana, M. L. ; Brandès, S. ; Desbois, N. ; Blondeau-Patissier, V. ; Gros, C. P., Corrolesdecobaltpourladétection sélective dumonoxydedecarbone, Congrès SCF Grand Est 8, May 2017, 11th and 12th, Mulhouse, France.
2) Quesneau, V. ; Naitana, M. L. ; Brandès, S. ; Desbois, N. ; Blondeau-Patissier, V. ; Gros, C. P., Corrolesdecobaltpourladétection sélective dumonoxydedecarbone, 18th Day of the Carnot-Pasteur Doctoral School, May 2017, 18th and 19th, Dijon, France.
3) Quesneau, V. ; Brandès, S. ; Desbois, N. ; Fonquernie, O. ; Vanotti, M. ; Blondeau-Patissier, V. ; Gros, C. P., Synthesis and characterization of covalent organic framework of cobalt corrole for detection of carbon monoxide, 7th EuCheMS Conference on Nitrogen Ligands, September 2018, from 3rd to 6th, Lisbon, Portugal.
1) Quesneau, V., Préparation de corroles de cobalt pour la détection du monoxyde de carbone,17th Day of the Carnot-Pasteur Doctoral School, June 2016, 19th and 20th, Besançon, France.
2) Quesneau, V. ; Naitana, M. L. ; Brandès, S. ; Desbois, N. ; Vanotti, M. ; Blondeau-Patissier, V. ; Gros, C. P., Cobalt corroles for selective detection of carbon monoxide, International Symposia on Metal Complexes 2017, June, 2017, from 11th to 15th, Dijon, France.
3) Quesneau, V., Cobalt corroles for sensitive detection of carbon monoxide, 19th Day of the Carnot-Pasteur Doctoral School, June 2018, 11th and 12th, Besançon, France.
4) Quesneau, V. ; Brandès, S. ; Desbois, N. ; Vanotti, M. ; Blondeau-Patissier, V. ; Gros, C. P., Elaboration of sensitive carbon monoxide sensors based on cobalt corrole, SCF 2018 Congress, July, 2018, from 2nd to 4th Montpellier, France.
5) Quesneau, V. ; Desbois, N. ; Shan, W. ; Gros, Kadish, K. M. ; C. P., Meso-Aryl Substituted Open-chain Pentapyrroles and Sapphyrins : Spectroscopic and electrochemical characterizations, 7th EuCheMS Conference on Nitrogen Ligands, September 2018, from 3rd to 6th, Lisbon, Portugal.
(1) Organic synthesis of various molecules (multi-step) : porphyrinoïds synthesis (corroles) and organic-based fluorophores (coumarin derivatives).
(2) Coordination Chemistry : synthesis of cobalt corroles and studies of the influence of axial ligand on the properties of formed complexes (for the elaboration of gas sensors).
(3) Analytical chemistry: purification by HPLC (RP, regular and ion-exchange), purification by size-exclusion chromatography, HPLC, LC-MS and ESI-MS (MSQ Plus, Thermo Scientific) analyses, spectroscopic characterizations by IR and RMN 1D/2D (1H and heteronuclei), photophysics (Abs/Ex/Em spectra, absolute/relative fluorescence quantum yields, ETE).

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