70 results on '"Cadot, Emmanuel"'
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2. Clustering Six Electrons within “Dawson‐Like” Polyoxometalate: An Open Route toward Its Post‐functionalization
3. Clustering Six Electrons within “Dawson‐Like” Polyoxometalate: An Open Route toward Its Post‐functionalization
4. Time‐Resolved Spectroscopy and High‐Efficiency Light‐Driven Hydrogen Evolution of a {Mo3S4}‐Containing Polyoxometalate‐Based System
5. Host‐Guest Complexation Between Cyclodextrins and Hybrid Hexavanadates: What are the Driving Forces?
6. “Host in Host” Supramolecular Core–Shell Type Systems Based on Giant Ring‐Shaped Polyoxometalates
7. “Host in Host” Supramolecular Core–Shell Type Systems Based on Giant Ring‐Shaped Polyoxometalates
8. Discovery and Supramolecular Interactions of Neutral Palladium‐Oxo Clusters Pd 16 and Pd 24
9. Discovery and Supramolecular Interactions of Neutral Palladium‐Oxo Clusters Pd 16 and Pd 24
10. From Specific γ‐CD/[Nb6Cl12(H2O)6]2+ Recognition to Biological Activity Tuning
11. Encapsulation of Chaotropic closo‐Decahydrodecaborate Clusters Within Cyclodextrins: Synthesis, Solution Studies, and DFT Calculations
12. Front Cover: Host-Guest Binding Hierarchy within Redox- and Luminescence-Responsive Supramolecular Self-Assembly Based on Chalcogenide Clusters and γ-Cyclodextrin (Chem. Eur. J. 51/2018)
13. Host-Guest Binding Hierarchy within Redox- and Luminescence-Responsive Supramolecular Self-Assembly Based on Chalcogenide Clusters and γ-Cyclodextrin
14. Host–Guest Binding Hierarchy within Redox‐ and Luminescence‐Responsive Supramolecular Self‐Assembly Based on Chalcogenide Clusters and γ‐Cyclodextrin
15. High-field 95 Mo and 183 W static and MAS NMR study of polyoxometalates
16. Tunable Keplerate Type‐Cluster “Mo132” Cavity with Dicarboxylate Anions
17. ChemInform Abstract: Polyoxothiometalates POTM
18. Tracking “Apolar” NMe4+ Ions within Two Polyoxothiomolybdates that Have the Same Pores: Smaller Clathrate and Larger Highly Porous Clusters in Action
19. ChemInform Abstract: Synthesis, Structure, and Tungsten NMR Characterization of {SbW9O33}9‐{Mo2O2 S2}2+ Sandwich‐Like Polyoxothiometalates.
20. Implementing Liquid-Crystalline Properties in Single-Stranded Dinuclear Lanthanide Helicates (Eur. J. Inorg. Chem. 19/2013)
21. Implementing Liquid-Crystalline Properties in Single-Stranded Dinuclear Lanthanide Helicates
22. Implementing Liquid‐Crystalline Properties in Single‐Stranded Dinuclear Lanthanide Helicates
23. Synthesis, Structure, and Tungsten NMR Characterization of {SbW 9 O 33 } 9– {Mo 2 O 2 S 2 } 2+ Sandwich‐Like Polyoxothiometalates
24. Synthesis and Characterization of [Mo 3 S 4 (NDABu)(HNDABu) 2 ] 3– and [Mo 3 S 4 (HNDAPr) 3 ] 2– Anions as Building Blocks for Organic–Inorganic Hybrid Solids
25. ChemInform Abstract: Polyoxometalates Paneling Through {Mo2O2S2} Coordination: Cation‐Directed Conformations and Chemistry of a Supramolecular Hexameric Scaffold.
26. ChemInform Abstract: Oxothiomolybdenum Derivatives of the Superlacunary Crown Heteropolyanion {P8W48}: Structure of [K4{Mo4O4S4(H2O)3(OH)2}2(WO2) (P8W48O184)]30-and Studies in Solution.
27. Softening of Pore and Interior Properties of a Metal-Oxide-Based Capsule: Substituting 60 Oxide by 60 Sulfide Ligands
28. Softening of Pore and Interior Properties of a Metal‐Oxide‐Based Capsule: Substituting 60 Oxide by 60 Sulfide Ligands
29. ChemInform Abstract: Synthesis, Structure, and Behavior in Solution of the Dawson Thio Derivative [(P2W17O61)2 (H4Mo4S4O6)]16‐.
30. Synthesis, Structure, and Behavior in Solution of the Dawson Thio Derivative [(P2W17O61)2(H4Mo4S4O6)]16-
31. ChemInform Abstract: A Decade of Oxothiomolybdenum Wheels: Synthesis, Behavior in Solution, and Electrocatalytic Properties
32. A Decade of Oxothiomolybdenum Wheels: Synthesis, Behavior in Solution, and Electrocatalytic Properties
33. ChemInform Abstract: A New Oxomolybdate Component Extracted from the “Virtual Dynamic Library” Yielding the Macrocyclic Anion [(Mo8VIO28)4 (Mo2VO2S2)4] 24‐.
34. ChemInform Abstract: Hydrothermal Syntheses: A Route to the Stepwise Condensation of Reduced Keggin Polyanions. From Reduced β-[HmSiMo12O40]n- Monomers to Bicapped Dimerized [Si2Mo28O84(H2O)2] 6- Anions.
35. ChemInform Abstract: Addition of {M2S2O2}2+, M: Mo, W, to A-α-[PW9O34]9-. Synthesis and Structural Characterizations in the Solid State and in Solution.
36. ChemInform Abstract: Synthesis, X-Ray and Neutron Diffraction Characterization and Ionic Conduction Properties of a New Oxothiomolybdate Li3 [Mo8S8O8(OH)8{HWO5 (H2O)}]×18H2O.
37. ChemInform Abstract: Cyclic Molecular Materials Based on [M2O2S2]2+ Cores (M: Mo or W)
38. ChemInform Abstract: Polyoxothiomolybdenum Wheels as Anionic Receptors for Recognition of Sulfate and Sulfonate Anions.
39. Polyoxothiomolybdenum Wheels as Anionic Receptors for Recognition of Sulfate and Sulfonate Anions
40. ChemInform Abstract: Structural Link Between Giant Molybdenum Oxide Based Ions and Derived Keggin Structure: Modular Assemblies Based on the [BW11O39]9‐ Ion and Pentagonal {M′M5} Units (M′: W; M: Mo, W).
41. Structural Link between Giant Molybdenum Oxide Based Ions and Derived Keggin Structure: Modular Assemblies Based on the [BW11O39]9−Ion and Pentagonal {M′M5} Units (M′=W; M=Mo,W)
42. Structural Link between Giant Molybdenum Oxide Based Ions and Derived Keggin Structure: Modular Assemblies Based on the [BW11O39]9− Ion and Pentagonal {M′M5} Units (M′=W; M=Mo,W)
43. ChemInform Abstract: Slow-Proton Dynamics within a Zirconium-Containing Sandwich-Like Complex Based on the Trivacant Anion α-[SiW9O34]10-- Synthesis, Structure and NMR Spectroscopy.
44. ChemInform Abstract: Cyclic Ti9Keggin Trimers with Tetrahedral (PO4) or Octahedral (TiO6) Capping Groups.
45. Slow‐Proton Dynamics within a Zirconium‐Containing Sandwich‐Like Complex Based on the Trivacant Anion α‐[SiW9O34]10– – Synthesis, Structure and NMR Spectroscopy
46. ChemInform Abstract: Selective Inclusion of Cu+ and Ag+ Electron‐Rich Metallic Cations within Supramolecular Polyoxometalates Based on {AsW9O33}{Mo3S4} Combinations.
47. ChemInform Abstract: Incorporation of Molybdenum Sulfide Cluster Units into a Dawson‐Like Polyoxometalate Structure to Give Hybrid Polythiooxometalates.
48. Selective Inclusion of Cu+ and Ag+ Electron‐Rich Metallic Cations within Supramolecular Polyoxometalates Based on {AsW9O33}{Mo3S4} Combinations
49. Incorporation of Molybdenum Sulfide Cluster Units into a Dawson‐Like Polyoxometalate Structure To Give Hybrid Polythiooxometalates
50. Incorporation of Molybdenum Sulfide Cluster Units into a Dawson‐Like Polyoxometalate Structure To Give Hybrid Polythiooxometalates
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