L. Rebbouh
École Supérieure des Arts Saint-Luc de Liège(BE)
Publications by Year
Research Areas
X-ray Diffraction in Crystallography, Crystallization and Solubility Studies, Magnetism in coordination complexes, Iron oxide chemistry and applications, Crystal Structures and Properties
Most-Cited Works
- → Properties of a Mixed-Valence (FeII)2(FeIII)2 Square Cell for Utilization in the Quantum Cellular Automata Paradigm for Molecular Electronics(2005)137 cited
- → Polymorphism in Fe[(p-IC6H4)B(3-Mepz)3]2 (pz = Pyrazolyl): Impact of Supramolecular Structure on an Iron(II) Electronic Spin-State Crossover(2005)98 cited
- → Characterization and magnetic properties of core/shell structured Fe/Au nanoparticles(2004)85 cited
- → Formation of Third Generation Poly(pyrazolyl)borate Ligands from Alkyne Coupling Reactions of Fe[(p-IC6H4)B(3-Rpz)3]2 (R = H, Me; pz = Pyrazolyl): Pathways toward Controlling an Iron(II) Electronic Spin-State Crossover(2005)81 cited
- → A Versatile Method for the Reductive, One‐Pot Synthesis of Bare, Hydrophilic and Hydrophobic Magnetite Nanoparticles(2011)61 cited
- → Fe57Mössbauer spectral and muon spin relaxation study of the magnetodynamics of monodispersedγ−Fe2O3nanoparticles(2007)45 cited
- → Morphologic, magnetic, and Mössbauer spectral properties of Fe75Co25 nanoparticles prepared by ultrasound-assisted electrochemistry(2004)31 cited
- → Versatility in the binding of 2-pyrazinecarboxylate with iron. Synthesis, structure and magnetic properties of iron(ii) and iron(iii) complexes(2005)26 cited
- → Structural identification of the factors that prevent an electronic spin-state crossover in Fe[(C6H5)B(3-Mepz)3]2 (pz=pyrazolyl ring)(2006)24 cited
- → A Study of the Electronic Spin‐State Crossover in {Fe[HC(3,4,5‐Me3pz)3]2}(BF4)2(2004)20 cited