S. T. Liddle, H. Liu, T. Ghatak, M. S. Eisen, H. Liu et al., Addition Across a Transient Uranium-Nitrido Moiety and Formation of a Parent Uranium Imido Complex, The Renaissance of Non-Aqueous Uranium Chemistry, vol.54, p.341, 2008.

Z. Lin and T. J. Marks, Metal, Bond Energy, and Ancillary Ligand Effects on Actinide-Carbon .Sigma.-Bond Hydrogenolysis. A Kinetic and Mechanistic Study, J. Am. Chem. Soc, vol.109, pp.7979-7985, 1987.

T. Andrea, E. Barnea, and M. S. Eisen, Organoactinides Promote The Tishchenko Reaction: The Myth of Inactive ActinideAlkoxo Complexes, J Am Chem Soc, vol.130, pp.2454-2455, 2008.

S. D. Wobser and T. J. Marks, Organothorium-Catalyzed Hydroalkoxylation/Cyclization of Alkynyl Alcohols. Scope, Mechanism, and Ancillary Ligand Effects, Organometallics, vol.32, pp.2517-2528, 2012.

R. J. Batrice, C. E. Kefalidis, L. Maron, and M. S. Eisen, Actinide-Catalyzed Intermolecular Addition of Alcohols to Carbodiimides, J Am Chem Soc, vol.138, pp.2114-2117, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01968720

R. J. Baker and A. Walshe, New Reactivity of the Uranyl Ion: Ring Opening Polymerisation of Epoxides, Chem. Commun, vol.48, pp.985-987, 2012.

A. Walshe, J. Fang, L. Maron, and R. J. Baker, New Mechanism for the Ring-Opening Polymerization of Lactones? Uranyl Aryloxide-Induced Intermolecular Catalysis, Inorg. Chem, vol.52, pp.9077-9086, 2013.

S. Enthaler, A. Fedorov, A. A. Toutov, N. A. Swisher, and R. H. Grubbs, Lewis-Base Silane Activation: From Reductive Cleavage of Aryl Ethers to Selective Ortho-Silylation, Chem. Sci, vol.17, pp.1640-1645, 2011.

J. Zheng, S. Chevance, C. Darcel, and J. Sortais, Selective Reduction of Carboxylic Acids to Aldehydes Through Manganese Catalysed Hydrosilylation, Chem. Commun, vol.49, pp.10010-10012, 2013.
URL : https://hal.archives-ouvertes.fr/hal-00870857

M. Rauch, G. Parkin, S. Das, F. D. Bobbink, G. Laurenczy et al., Selective Actinide-Catalyzed Tandem Proton-Transfer Esterification of Aldehydes with Alcohols for the Production of Asymmetric Esters, ACS Sustainable Chem. Eng, vol.139, issue.11, pp.1461-1464, 2012.

J. L. Lortie, T. Dudding, B. M. Gabidullin, G. I. Nikonov, J. V. Obligacion et al., Earth-Abundant Transition Metal Catalysts for Alkene Hydrosilylation and Hydroboration, Nat. Rev. Chem, vol.20, pp.15-34, 2017.

B. E. Cowie, G. S. Nichol, J. B. Love, P. L. Arnold, C. Chauvier et al., A Viewpoint on Chemical Reductions of CarbonOxygen Bonds in Renewable Feedstocks Including CO2 and Biomass, Chem. Commun, vol.54, pp.2107-2115, 2017.

E. Feghali, G. Carrot, P. Thuéry, C. Genre, T. Cantat et al., Efficient Reductive Depolymerization of Hardwood and Softwood Lignins with Brookhart's Iridium(III) Catalyst and Hydrosilanes, Angew. Chem. Int. Ed, vol.8, pp.1225-1227, 1981.
URL : https://hal.archives-ouvertes.fr/cea-01760087

J. Zhang, Y. Chen, M. A. Brook, E. Feghali, T. Cantat et al., Mechanochemical Metal-Free Transfer Hydrogenation of Carbonyls Using Polymethylhydrosiloxane as the Hydrogen Source, Reductive Degradation of Lignin and Model Compounds by Hydrosilanes, vol.8, pp.3204-3213, 1983.

M. B. Sassaman, K. D. Kotian, G. K. Prakash, and G. A. Olah, General Ether Synthesis under Mild Acid-Free Conditions

R. Leino, R. Savela, T. Mineno, R. Tsukagoshi, T. Iijima et al., Synthesis of Ethers from Carbonyl Compounds by Reductive Etherification Catalyzed by Iron(III) and Silyl Chloride, Trimethylsilyl Iodide Catalyzed Reductive Coupling of Carbonyl Compounds with Trialkylsilanes to Symmetrical Ethers and Reductive Condensation with Alkoxysilanes to Unsymmetrical Ethers, vol.52, pp.3765-3767, 1987.

M. Sc, G. Bi, Y. Zhang, W. Dayoub, G. Chen et al., Antimony(v) Cations for the Selective Catalytic Transformation of Aldehydes into Symmetric Ethers, Alpha, BetaUnsaturated Aldehydes, and 1,3,5-Trioxanes, J. Korean Chem. Soc, vol.68, pp.10224-10227, 1961.

L. Ladziata, V. Ghosh, R. Maiti, S. Gaspard-iloughmane, H. Le-roux et al., Recent Applications of Rare-Earth Metal(III) Triflates in Cycloaddition and Cyclization Reactions, A Survey of Hammett Substituent Constants and Resonance and Field Parameters, vol.102, pp.165-195, 1991.

P. Ondet, G. Lemière, E. Duñach, A. Sorkau, K. Schwarzer et al., Dimerization and Cyclotrimerization of Aldehydes: Ruthenium Catalyzed Formation of Esters, 1,3,5-Trioxanes, and Aldol Condensation Products from Aldehydes, J. Mol. Catal. A: Chem, vol.31, pp.105-109, 2004.

J. Augé, R. Gil, E. Elamparuthi, E. Ramesh, and R. Raghunathan, InCl3 as an Efficient Catalyst for Cyclotrimerization of Aldehydes: Synthesis of 1,3,5-Trioxane Under Solvent-Free Conditions, Tetrahedron Lett, vol.43, pp.2801-2804, 2002.

R. Arias-ugarte, F. S. Wekesa, M. Findlater, Y. Hon, C. Lee et al., Acetonyltriphenylphosphonium Bromide in Organic Synthesis: a Useful Catalyst in the Cyclotrimerization of Aldehydes, (BH4)2 as a Simple Tool for the Preparation of Thorium and Uranium Metallocene Borohydride Complexes: First Synthesis, vol.56, pp.17379-17381, 2001.

J. K. Commun-;-c)-pagano, J. M. Dorhout, K. R. Czerwinski, D. E. Morris, B. L. Scott et al., Tuning the Oxidation State, Nuclearity, and Chemistry of Uranium Hydrides with Phenylsilane and Temperature: The Case of the Classic Uranium(III) Hydride Complex, Organometallics, vol.77, pp.4317-4324, 2016.

J. Berthet, P. Thuéry, and M. Ephritikhine, Formation of Uranium(IV) Oxide Clusters from Uranocene

J. C. Berthet, P. Thuéry, and M. Ephritikhine, Unprecedented Reduction of the Uranyl Ion [UO2] 2+ into a Polyoxo Uranium(IV) Cluster: Synthesis and Crystal Structure of the First F-Element Oxide with a M6(µ 3 -O)8 Core, Chem. Commun, vol.49, pp.3415-3417, 2005.

C. Villiers, P. Thuéry, and M. Ephritikhine, Synthesis and Crystal Structure of [UO2(BH4)2(hmpa)2], a Novel Uranyl Complex and the First Metal Oxoborohydride, Synthesis, Structure, and Reactions of Hydride, Borohydride, and Aluminohydride Compounds of the fElements, vol.10, pp.2193-2242, 1997.

I. Majumder, S. Chatterjee, R. C. Fischer, S. K. Neogi, F. A. Mautner et al., Syntheses of U3O8 Nanoparticles form Four Different Uranyl Complexes: Their Catalytic Performance for Various Alcohol Oxidations, Inorg. Chim. Acta, vol.462, pp.112-122, 2017.

S. Sitran, D. Fregona, U. Casellato, P. A. Vigato, R. Graziani et al., Synthesis, Characterization and Crystal Structure of 2-dimethylacetal-4-chloro-6-formylphenol and aquabis(2-dimethylacetal-4-chloro-6-formylphenolato)dioxouranium(VI), Inorg. Chim. Acta, vol.121, pp.103-111, 1986.

J. C. Berthet, M. Nierlich, M. Ephritikhine, J. C. Berthet, M. Nierlich et al., Oxygen and Nitrogen Lewis Base Adducts of [UO2(OTf)2]. Crystal Structures of polypyridine complexes with Out-Of-Plane Uranyl Equatorial Coordination, Species: Crystallographic Comparison of the Dioxouranium(V) and (VI) Compounds, vol.42, pp.1952-1954, 2003.

B. Gao, J. L. Zhu, T. Tsunoda, M. Suzuki, and R. Noyori, A Facile Procedure for Acetalization Under Aprotic Conditions, Acta crystallographica. Section E, vol.64, pp.1357-1358, 1980.