Laboratoire de Chimie de Coordination UPR 8241


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Publications

2020

Cunillera, A., Díaz de los Bernardos, M., Urrutigoïty, M., Claver, C., Ruiz, A., & Godard, C. (2020). Efficient synthesis of chiral γ-aminobutyric esters via direct rhodium-catalysed enantioselective hydroaminomethylation of acrylates. Catal. Sci. Technol., 10(3), 630–634.
El-Fawal, E. M., Younis, S. A., Moustafa, Y. M., & Serp, P. (2020). Preparation of solar-enhanced AlZnO@carbon nano-substrates for remediation of textile wastewaters. J. Environ. Sci., 92, 52–68.
Gerber, I. C., & Serp, P. (2020). A theory/experience description of support effects in carbon-supported catalysts. Chem. Rev., 120(2), 1250–1349.
Ghogia, A. C., Cayez, S., Machado, B. F., Nzihou, A., Serp, P., Soulantica, K., & Pham Minh, D. (2020). Hydrogen spillover in the Fischer-Tropsch synthesis on carbon-supported cobalt catalysts. ChemCatChem, 12, 1117–1128.
Kalck, P., Le Berre, C., & Serp, P. (2020). Recent advances in the methanol carbonylation reaction into acetic acid. Coord. Chem. Rev., 402, 213078.
Min, Y., Nasrallah, H., Poinsot, D., Lecante, P., Tison, Y., Martinez, H., Roblin, P., Falqui, A., Poteau, R., del Rosal, I., Gerber, I. C., Hierso J.-C., Axet M. R., & Serp, P. (2020). 3D ruthenium nanoparticle covalent assemblies from polymantane ligands for confined catalysis. Chem. Mater., 32(6), 2365−2378.
Murillo, C., Irakoze, G., de Oliveira Vigier, K., Delmas, M., Jérôme, F., Pérès, Y., Urrutigoïty, M., & Cognet, P. (2020). Modeling of ethylene glycol production from glucose in a semi-continuous reactor. Chem. Eng. Technol., 43(5), 950–963.
Oliveira, A. A. S., Martins, A. R., Ferreira, R. V., Cunha, I. T., Serp, P., de Mesquita, J. P., & Moura, F. C. C. (2020). N-doped carbon nanotubes grown on red mud residue: Hybrid nanocomposites for technological applications. Catal. Today, 344, 247–258.
Saber, A., Sebbar, N. K., Sert, Y., Alzaqri, N., Hökelek, T., El Ghayati, L., Talbaoui, A., Mague, J. T., Baba, Y. F., Urrutigoîty, M., & El Essassi, M. (2020). Syntheses of N-substituted benzimidazolone derivatives: DFT calculations, Hirshfeld surface analysis, molecular docking studies and antibacterial activities. J. Mol. Struct., 1200, 127174.

2019

Axet, M. R., Durand, J., Gouygou, M., & Serp, P. (2019). Surface Coordination Chemistry on Graphene and Two-Dimensional Carbon Materials for Well-Defined Single Atom Supported Catalysts. In P. J. Perez (Ed.), (pp. 53–174). Advances in Organometallic Chemistry, 71. Cambridge: Academic Press.
Castro Contreras, R., Guicheret, B., Machado, B. F., Rivera-Carcamo, C., Curiel Alvarez, M. A., Valdez Salas, B., Ruttert, M., Placke, T., Favre Reguillon, A., Vanoye, L., de Bellefon, C., Philippe, R., & Serp, P. (2019). Effect of mesoporous carbon support nature and pretreatments on palladium loading, dispersion and apparent catalytic activity in hydrogenation of myrcene. J. Catal., 372, 226–244.
Daran, J. - C., Gimeno, N., Gouygou, M., & Volkman, J. (2019). A triangular palladium(II) supramolecular coordination complex based on 1,4-bis(1H-imidazol-1-yl)benzene and (2,2'-bipyridyl)palladium(II) nitrate: synthesis and crystal structure. Acta Crystallogr. Sect. C, 75(5), 523–528.
de Caro, P., Bandres, M., Urrutigoïty, M., Cecutti, C., & Thiebaud-Roux, S. (2019). Recent progress in synthesis of glycerol carbonate and evaluation of its plasticizing properties. Front. Chem., 7, 308/1–13.
Espinosa, J. C., Castro Contreras, R., Navalon, S., Rivera-Carcamo, C., Alvaro, M., Machado, B. F., Serp, P., & Garcia, H. (2019). Influence of carbon supports on palladium nanoparticle activity toward hydrodeoxygenation and aerobic oxidation in biomass transformations. Eur. J. Inorg. Chem., (14), 1979–1987.
Fernandes, R. A., Sampaio, M. J., Da Silva, E. S., Serp, P., Faria, J. L., & Silva, C. G. (2019). Synthesis of selected aromatic aldehydes under UV-LED irradiation over a hybrid photocatalyst of carbon nanofibers and zinc oxide. Catal. Today, 328, 286–292.
Louisia, S., Thomas, Y. R. J., Lecante, P., Heitzmann, M., Axet, M. R., Jacques, P. - A., & Serp, P. (2019). Alloyed Pt3M (M = Co, Ni) nanoparticles supported on S- and N-doped carbon nanotubes for oxygen reduction reaction. Beilstein J. Nanotechnol., 10, 1251–1269.
Luo, Z., Min, Y., Nechiyil, D., Bacsa, W., Tison, Y., Martinez, H., Lecante, P., Gerber, I. C., Serp, P., & Axet, M. R. (2019). Chemoselective reduction of quinoline over Rh–C60 nanocatalysts. Catal. Sci. Technol., 9(24), 6884–6898.
Machado, B. F., Bacsa, R. R., Rivera-Carcamo, C., & Serp, P. (2019). Preparation of few-layer graphene/carbon nanotube hybrids using oxide spinel Catalysts. C, 5(2), 28/1–10.
Martin-Martinez, M., Machado, B. F., Serp, P., Morales-Torres, S., Silva, A. M. T., Figueiredo, J. L., Faria, J. L., & Gomes, H. T. (2019). Carbon nanotubes as catalysts for wet peroxide oxidation: The effect of surface chemistry. Catal. Today, .
Negoi, A., Cojocaru, B., Parvulescu, V. I., Imlyhen, N., & Gouygou, M. (2019). Batch versus flow stereoselective hydrogenation of α-acetamido-cinnamic acid catalyzed by an Au(I) complex. Mol. Catal., 474, 110420.
Radjagobalou, R., Blanco, J. - F., Dias da Silva Freitas, V., Supplis, C., Gros, F., Dechy-Cabaret, O., & Loubière, K. (2019). A revised experimental protocol for implementing the actinometry method with the Reinecke’s salt. J. Photochem. Photobiol., A, 382, 111934.

2018

Axet, M. R., Conejero, S., & Gerber, I. C. (2018). Ligand effects on the selective hydrogenation of nitrobenzene to cyclohexylamine using ruthenium nanoparticles as catalysts. Acs Appl. Nano Mater., 1(10), 5885–5894.
Axet, M. R., Gerber, I. C., & Serp, P. (2018). Construction de catalyseurs supportés par auto-assemblage. Actualité Chimique, 430-431, 91–95.
Benyounes, A., Ouanji, F., Louisia, S., Ziyad, M., Serp, P., & Kacimi, M. (2018). Coexistence of sulfonic and pyridinic sites on H2SO4 treated N-doped carbon nanotubes. Catal. Today, 301, 183–190.
Dembele, K., Moldovan, S., Hirlimann, C., Harmel, J., Soulantica, K., Serp, P., Chaudret, B., Gay, A. S., Maury, S., Berliet, A., Fecant, A., & Ersen, O. (2018). Reactivity and structural evolution of urchin-like Co nanostructures under controlled environments. J. Microsc., 269(2), 168–176.