Aller au contenu

| | |

1- Benseghir, Y.; Sole-Daura, A.; Mialane, P.; Marrot, J.; Dalecky, L.; Bechu, S.; Fregnaux, M.; Gomez-Mingot, M.; Fontecave, M.; Mellot-Draznieks, C.; Dolbecq, A. Understanding the Photocatalytic Reduction of CO2 with Heterometallic Molybdenum(V) Phosphate Polyoxometalates in Aqueous Media. Acs Catalysis 2022, 12, 453–464.

2-Benzaqui, M.; Wahiduzzaman, M.; Zhao, H.; Rafiul Hasan, M.; Steenhaut, T.; Saad, A.; Marrot, J.; Normand, P.; Greneche, J.-M.; Heymans, N.; de Weireld, G.; Tissot, A.; Shepard, W.; Filinchuk, Y.; Hermans, S.; Carn, F.; Manlankowska, M.; Tellez, C.; Coronas, J.; Maurin, G.; Steunou, N.; Serre, C. A Robust Eco-Compatible Microporous Iron Coordination Polymer for CO2 Capture. J. Mater. Chem. A 2022, 10.
3- Fuior, A.; Hijazi, A.; Garbuz, O.; Bulimaga, V.; Zosim, L.; Cebotari, D.; Haouas, M.; Toderas, I.; Gulea, A.; Floquet, S. Screening of Biological Properties of MoV2O2S2- and MoV2O4-Based Coordination Complexes: Investigation of Antibacterial, Antifungal, Antioxidative and Antitumoral Activities versus Growing of Spirulina Platensis Biomass. J. Inorg. Biochem. 2022, 226, 111627.

4- Khlifi, S.; Marrot, J.; Haouas, M.; Shepard, W. E.; Falaise, C.; Cadot, E. Chaotropic Effect as an Assembly Motif to Construct Supramolecular Cyclodextrin-Polyoxometalate-Based Frameworks. J. Am. Chem. Soc. 2022, 144 (10), 4469–4477.

5- Veselska, O.; Vaidya, S.; Das, C.; Guillou, N.; Bordet, P.; Fateeva, A.; Toche, F.; Chiriac, R.; Ledoux, G.; Wuttke, S.; Horike, S.; Demessence, A. Cyclic Solid-State Multiple Phase Changes with Tuned Photoemission in a Gold Thiolate Coordination Polymer. Angew. Chem.-Int. Edit. 2022, e202117261.
6- Veselska, O.; Guillou, N.; Diaz-Lopez, M.; Bordet, P.; Ledoux, G.; Lebegue, S.; Mesbah, A.; Fateeva, A.; Demessence, A. Sustainable and Efficient Low-Energy Light Emitters: A Series of One-Dimensional d(10) Coinage Metal-Organic Chalcogenolates, [M(o-SPhCO2H)](n). Chemphotochem 2022, e202200030.