| People | Locations | Statistics |
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| Naji, M. |
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| Motta, Antonella |
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| Aletan, Dirar |
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| Mohamed, Tarek |
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| Ertürk, Emre |
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| Taccardi, Nicola |
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| Kononenko, Denys |
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| Petrov, R. H. | Madrid |
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| Alshaaer, Mazen | Brussels |
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| Bih, L. |
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| Casati, R. |
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| Muller, Hermance |
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| Kočí, Jan | Prague |
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| Šuljagić, Marija |
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| Kalteremidou, Kalliopi-Artemi | Brussels |
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| Azam, Siraj |
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| Ospanova, Alyiya |
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| Blanpain, Bart |
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| Ali, M. A. |
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| Popa, V. |
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| Rančić, M. |
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| Ollier, Nadège |
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| Azevedo, Nuno Monteiro |
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| Landes, Michael |
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| Rignanese, Gian-Marco |
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Karttunen, Antti J.
Aalto University
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (40/40 displayed)
- 2024[Br4F21]− - a unique molecular tetrahedral interhalogen ion containing a μ4-bridging fluorine atom surrounded by BrF5 moleculescitations
- 2024Dedoping of Carbon Nanotube Networks Containing Metallic Clusters and Chloridecitations
- 2024Chemical Bonding and Crystal Structure Schemes in Atomic/Molecular Layer Deposited Fe-Terephthalate Thin Filmscitations
- 2024Enhancing electrocatalytic activity in metallic thin films through surface segregation of carboncitations
- 2024Ba12[BN2]6.67H4: A Disordered Anti‐Skutterudite filled with Nitridoborate Anionscitations
- 2024Massive reduction in lattice thermal conductivity and strongly enhanced thermoelectric properties in Ge- and Se-doped CoSbScitations
- 2023Elastic Properties of Binary d-Metal Oxides Studied by Hybrid Density Functional Methodscitations
- 2023Enhancing electrocatalytic activity in metallic thin films through surface segregation of carboncitations
- 2023Overcoming the Sticking Point: Electrical Conductivity of Carbon Nanotube Networks Containing 3d Metalscitations
- 2022Photochemistry with ClF3 – An Access to [ClOF2]+ Saltscitations
- 2022Thermal and mechanical properties of the clathrate-II Na24Si136citations
- 2022Expanding the hydride chemistry: antiperovskites A3MO4H (A = Rb, Cs; M = Mo, W) introducing the transition oxometalate hydridescitations
- 2022Bromine Pentafluoride BrF5, the Formation of [BrF6]− Salts, and the Stereochemical (In)activity of the Bromine Lone Pairscitations
- 2022p-type to n-type conductivity transition in thermoelectric CoSbScitations
- 2022Bridging the Junction: Electrical Conductivity of Carbon Nanotube Networkscitations
- 2021DFT-Guided Crystal Structure Redetermination and Lattice Dynamics of the Intermetallic Actinoid Compound UIrcitations
- 2021Emergence of Metallic Conductivity in Ordered One-Dimensional Coordination Polymer Thin Films upon Reductive Dopingcitations
- 2021Photochemistry with Chlorine Trifluoride : Syntheses and Characterization of Difluorooxychloronium(V) Hexafluorido(non)metallates(V), [ClOF2][MF6] (M=V, Nb, Ta, Ru, Os, Ir, P, Sb)citations
- 2020Key Role of Defects in Thermoelectric Performance of TiMSn (M = Ni, Pd, and Pt) Half-Heusler Alloyscitations
- 2020Reactions in Anhydrous Liquid Ammonia : Syntheses and Crystal Structures of [M(NH3)8]I2 (M = Eu, Yb) with Bicapped Trigonal-Prismatic Octaammine Lanthanoid(II) Cations
- 2019Silicon clusters with six and seven unsubstituted verticescitations
- 2019Evolutionary Algorithm-Based Crystal Structure Prediction for Copper (I) Fluoridecitations
- 2019Crystal Structures of α- And β-Nitrogen Trifluoridecitations
- 2019Silicon clusters with six and seven unsubstituted vertices: Via a two-step reaction from elemental siliconcitations
- 2019An Unprecedented Fully H–-Substituted Phosphate Hydride Sr5(PO4)3H Expanding the Apatite Familycitations
- 2019Half-metallicity in uranium intermetallicscitations
- 2019Synthesis and Characterization of [Br 3 ][MF 6 ] (M=Sb, Ir), as well as Quantum Chemical Study of [Br 3 ] + citations
- 2019Reactions of KBrF4 with platinum metalscitations
- 2018Electronic and Vibrational Properties of TiS2, ZrS2, and HfS2citations
- 2018Electronic and Vibrational Properties of TiS2, ZrS2, and HfS2: Periodic Trends Studied by Dispersion-Corrected Hybrid Density Functional Methodscitations
- 2018Thermoelectric Properties of p-Type Cu2O, CuO, and NiO from Hybrid Density Functional Theorycitations
- 2016Substantially enhanced Raman signal for inorganic-organic nanocomposites by ALD-TiO2 cappingcitations
- 2012Modulation of Metallophilic Bondscitations
- 2012Soluble Zintl Phases A(14)ZnGe(16) (A=K, Rb) Featuring [(eta(3)-Ge-4) Zn(eta(2)-Ge-4)](6-) and [Ge-4](4-) Clusters and the Isolation of [(MesCu)(2)(eta(3),eta(3)-Ge-4)](4-)citations
- 2012Intensely Luminescent Homoleptic Alkynyl Decanuclear Gold(I) Clusters and Their Cationic Octanuclear Phosphine Derivativescitations
- 2012Uranyl Halides from Liquid Ammoniacitations
- 2011The Complex Amide K-2[Zr(NH2)(6)]citations
- 2011Bulk Synthesis and Structure of a Microcrystalline Allotrope of Germanium (m-allo-Ge)citations
- 2011Preparation of copper-silicon dioxide nanoparticles with chemical vapor synthesiscitations
- 2010Synthesis, structure, and electronic properties of 4H-germaniumcitations
Places of action
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article
Uranyl Halides from Liquid Ammonia
Abstract
<p>Uranyl chloride UO2Cl2 and uranyl fluoride UO2F2 react with dry liquid ammonia under the formation of traffic-green crystals of pentaammine dioxido uranium(VI) dichloride ammonia (1/1) [UO2(NH3)5]Cl2 center dot NH3 (1) and sulfur-yellow crystals of triammine difluorido dioxido uranium(VI) ammonia (2/2) [UO2F2(NH3)3]2 center dot 2NH3 (2), respectively. Low-temperature X-ray structure analyses on single crystals of the two compounds were conducted. Compound 1 crystallizes in the orthorhombic space group Cmcm with a = 12.7865(2), b = 10.5106(2), c = 8.7089(2) angstrom, V = 1170.45(4) angstrom 3 at 123 K with Z = 4. Compound 2 crystallizes in the orthorhombic space group Pnma with a = 20.8451(5), b = 9.1267(2), c = 8.3371(2) angstrom, V = 1586(6) angstrom 3 at 123 K with Z = 4. Further investigations on the room-temperature decomposition products of compounds 1 and 2 by Raman and IR spectroscopy, TGA MS and X-ray powder diffraction measurements and deuteration studies led to the identification of triammine dichlorido dioxido uranium(VI) UO2Cl2(NH3)3 (3) and triammine difluorido dioxido uranium(VI) UO2F2(NH3)3 (4) in the form of fern-green and zinc-yellow powders. Quantum chemical studies at the DFT-PBE0/TZVP level of theory support the experimental observations andalso show that the O=U=O triple bonding in the [UO2F2(NH3)3] molecule of compound 2 is weaker in comparison to the one in the [UO2(NH3)5]2+ dication of compound 1.</p>