Laboratoire de Chimie de Coordination UPR 8241

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Creus, J., Mallon, L., Romero, N., Bofill, R., Moya, A., Fierro, J. L. G., Mas-Balleste, R., Sala, X., Philippot, K., & Garcia-Anton, J. (2019). Ruthenium nanoparticles supported on carbon microfibers for hydrogen evolution electrocatalysis. Eur. J. Inorg. Chem., (15), 2071–2077.
Lara, P., Philippot, K., & Suarez, A. (2019). Phosphane-decorated platinum nanoparticles as efficient catalysts for H2 generation from ammonia borane and methanol. ChemCatChem, 11(2), 766–771.
Rothermel, N., Rother, T., Ayvalı, T., Martinez-Prieto, L. M., Philippot, K., Limbach, H. - H., Chaudret, B., Gutmann, T., & Buntkowsky, G. (2019). Reactions of D2 with 1,4-bis(diphenylphosphino) butane-stabilized metal nanoparticles-A combined gas-phase NMR, GC-MS and solid-state NMR study. ChemCatChem, 11(5), 1465–1471.


Creus, J., Drouet, S., Surinach, S., Lecante, P., Collière, V., Poteau, R., Philippot, K., Garcia-Anton, J., & Sala, X. (2018). Ligand-capped Ru nanoparticles as efficient electrocatalyst for the hydrogen evolution reaction. Acs Catal., 8, 11094–11102.
De Tovar, J., Romero, N., Denisov, S. A., Bofill, R., Gimbert-Surinach, C., Ciuculescu-Pradines, D., Drouet, S., Llobet, A., Lecante, P., Colliere, V., Freixa, Z., McClenaghan, N. D., Amiens, C., Garcia-Anton, J., Philippot, K., & Sala, X. (2018). Light-driven water oxidation using hybrid photosensitizer-decorated Co3O4 nanoparticles. Materials Today Energy, 9, 506–515.
Rakers, L., Martinez-Prieto, L. M., Lopez-Vinasco, A. M., Philippot, K., van Leeuwen, P. W. N. M., Chaudret, B., & Glorius, F. (2018). Ruthenium nanoparticles ligated by cholesterol-derived NHCs and their application in the hydrogenation of arenes. Chem. Commun., 54(51), 7070–7073.
Ramírez-Meneses, E., Philippot, K., Domínguez-Crespo, M. A., Ibrahim, M., Betancourt, I., Torres-Huerta, A. M., & Ezeta-Mejia, A. (2018). Synthesis of Rh nanoparticles in alcohols: magnetic and electrocatalytic properties. J. Mater. Sci., 53(12), 8933–8950.
Sutra, P., & Igau, A. (2018). Emerging Earth-abundant (Fe, Co, Ni, Cu) molecular complexes for solar fuel catalysis. Curr. Opin. Green Sustain. Chem., 10, 60–67.
Yan, N., & Philippot, K. (2018). Transformation of CO2 by using nanoscale metal catalysts: cases studies on the formation of formic acid and dimethylether. Curr. Opin. Chem. Eng., 20, 86–92.


Ayvali, T., Fazzini, P. - F., Lecante, P., Mayoral, A., Philippot, K., & Chaudret, B. (2017). Control of reactivity through chemical order in very small RuRe nanoparticles. Dalton Trans., 46(43), 15070–15079.
Branca, M., Corp, K., Ciuculescu-Pradines, D., Coppel, Y., Lecante, P., & Amiens, C. (2017). Insights into the chemistry of bismuth nanoparticles. New J. Chem., 41(13), 5960–5966.
Costa, N. J. S., Vono, L. L. R., Wojcieszak, R., Teixiera-Neto, E., Philippot, K., & Rossi, L. M. (2017). One-pot organometallic synthesis of alumina-embedded Pd nanoparticles. Dalton Trans., 46(41), 14318–14324.
Drouet, S., Creus, J., Colliere, V., Amiens, C., Garcia-Anton, J., Sala, X., & Philippot, K. (2017). A porous Ru nanomaterial as an efficient electrocatalyst for the hydrogen evolution reaction under acidic and neutral conditions. Chem. Commun., 53(85), 11713–11716.
Garcia, M. A. S., Ibrahim, M., Costa, J. C. S., Corio, P., Gusevskaya, E. V., dos Santos, E. N., Philippot, K., & Rossi, L. M. (2017). Study of the influence of PPh3 used as capping ligand or as reaction modifier for hydroformylation reaction involving Rh NPs as precatalyst. Appl. Catal., A, 548, 136–142.
Gharbi, K., Mezni, A., Collière, V., Philippot, K., Amiens, C., Ciuculescu-Pradines, D., & Smiri, L. S. (2017). Controlled synthesis of anisotropic gold nanoparticles by a simple polyol process and their related optical properties. J. Tunisian Chem. Soc., 19, 335–342.
Gharbi, K., Salles, F., Mathieu, P., Amiens, C., Colliere, V., Coppel, Y., Philippot, K., Fontaine, L., Montembault, V., Smiri, L. S., & Ciuculescu-Pradines, D. (2017). Alkyl phosphonic acid-based ligands as tools for converting hydrophobic iron nanoparticles into water soluble iron-iron oxide core-shell nanoparticles. New J. Chem., 41(20), 11898–11905.
Gomez-Villarraga, F., De Tovar, J., Guerrero, M., Nolis, P., Parella, T., Lecante, P., Romero, N., Escriche, L., Bofill, R., Ros, J., Sala, X., Philippot, K., & Garcia-Anton, J. (2017). Dissimilar catalytic behavior of molecular or colloidal palladium systems with a new NHC ligand. Dalton Trans., 46(35), 11768–11778.
Igau, A. (2017). η5-Oxocyclohexadienyl ligands in transition metal chemistry: Neglected (Brønsted) base ligands in cooperative catalysis. Coord. Chem. Rev., 344, 299–322.
Martinez-Prieto, L. M., Cano, I., Marquez, A., Baquero, E. A., Tricard, S., Cusinato, L., del Rosal, I., Poteau, R., Coppel, Y., Philippot, K., Chaudret, B., Campora, J., & van Leeuwen, P. W. N. M. (2017). Zwitterionic amidinates as effective ligands for platinum nanoparticle hydrogenation catalysts. Chem. Sci., 8(4), 2931–2941.
Martinez-Prieto, L. M., Rakers, L., Lopez-Vinasco, A. M., Cano, I., Coppel, Y., Philippot, K., Glorius, F., Chaudret, B., & van Leeuwen, P. W. N. M. (2017). Soluble platinum nanoparticles ligated by long-chain N-heterocyclic carbenes as catalysts. Chem. – Eur. J., 23(52), 12779–12786.