Laboratoire de Chimie de Coordination UPR 8241


Dominique AGUSTIN
IUT Castres




Pisk, J., Agustin, D., & Vrdoljak, V. (2020). Tetranuclear molybdenum(vi) hydrazonato epoxidation (pre)catalysts: Is water always the best choice? Catal. Commun., 142, 106027.
Runeberg, A. P., Agustin, D., & Eklund, C. P. (2020). Formation of tetrahydrofurano-, aryltetralin, and butyrolactone norlignans through the epoxidation of 9-norlignans. Molecules, 25(5), 1160/1–13.
Topić, E., Pisk, J., Agustin, D., Jendrlin, M., Cvijanović, D., Vrdoljak, V., & Rubčić, M. (2020). Discrete and polymeric ensembles based on dinuclear molybdenum(vi) building blocks with adaptive carbohydrazide ligands: From the design to catalytic epoxidation. New J. Chem., 44(19), 8085–8097.


Cvijanovic, D., Pisk, J., Pavlovic, G., Sisak-Jung, D., Matkovic-Calogovic, D., Cindric, M., Agustin, D., & Vrdoljak, V. (2019). Discrete mononuclear and dinuclear compounds containing a MoO22+ core and 4-aminobenzhydrazone ligands: Synthesis, structure and organic-solvent-free epoxidation activity. New J. Chem., 43(4), 1791–1802.
Damjanovic, V., Pisk, J., Kuzman, D., Agustin, D., Vrdoljak, V., Stilinovic, V., & Cindric, M. (2019). The synthesis, structure and catalytic properties of the [Mo7O24(mu-Mo8O26)Mo7O24]16- anion formed via two intermediate heptamolybdates [Co(en)3]2[NaMo7O24]Cl.nH2O and (H3O)[Co(en)3]2[Mo7O24]Cl.9H2O. Dalton Trans., 48, 9974–9983.
Pisk, J., Agustin, D., & Poli, R. (2019). Organic salts and Merrifield resin supported [PM12O40]3− (M = Mo or W) as catalysts for adipic acid synthesis. Molecules, 24(4), 783/1–15.
Pisk, J., Rubcic, M., Kuzman, D., Cindric, M., Agustin, D., & Vrdoljak, V. (2019). Molybdenum(vi) complexes of hemilabile aroylhydrazone ligands as efficient catalysts for greener cyclooctene epoxidation: An experimental and theoretical approach. New J. Chem., 43(14), 5531–5542.
Vrdoljak, V., Mandaric, M., Hrenar, T., Dilovic, I., Pisk, J., Pavlovic, G., Cindric, M., & Agustin, D. (2019). Geometrically constrained molybdenum(VI) metallosupramolecular architectures: Conventional synthesis versus vapor and thermally induced solid-state structural transformations. Cryst. Growth Des., 19(5), 3000–3011.
Wang, Y., Gayet, F., Guillo, P., & Agustin, D. (2019). Organic solvent-free olefins and alcohols (ep)oxidation using recoverable catalysts based on [PM12O40]3− (M = Mo or W) Ionically grafted on amino functionalized silica nanobeads. Materials, 12(20), 3278.


Cindric, M., Pavlovic, G., Katava, R., & Agustin, D. (2017). Towards a global greener process: from solvent-less synthesis of molybdenum(VI) ONO Schiff base complexes to catalyzed olefin epoxidation under organic-solvent-free conditions. New J. Chem., 41(2), 594–602.