Methane as a Selectivity Booster in the Arc‐Discharge Synthesis of Endohedral Fullerenes: Selective Synthesis of the Single‐Molecule Magnet Dy<sub>2</sub>TiC@C<sub>80</sub> and Its Congener Dy<sub>2</sub>TiC<sub>2</sub>@C<sub>80</sub> - Concepedia

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Methane as a Selectivity Booster in the Arc‐Discharge Synthesis of Endohedral Fullerenes: Selective Synthesis of the Single‐Molecule Magnet Dy<sub>2</sub>TiC@C<sub>80</sub> and Its Congener Dy<sub>2</sub>TiC<sub>2</sub>@C<sub>80</sub>

DOI Full Paper Access

87

Citations

40

References

2015

Year

Katrin Junghans, C. Schlesier, Aram Kostanyan, Nataliya A. Samoylova, Qingming Deng, Marco Rosenkranz, Sandra Schiemenz, Rasmus Westerström, Thomas Greber, B. Büchner,

Angewandte Chemie International Edition

EngineeringNanoclusterReactive GasOrganic ChemistryChemistrySmm PropertiesChemical EngineeringFullereneArc‐discharge SynthesisMaterials ScienceInorganic ChemistryCluster SciencePhysicsCatalysisQuantum ChemistryArc-discharge SynthesisMolecule-based MagnetNatural SciencesSelectivity BoosterCluster ChemistryEndohedral Fullerenes

Abstract

The use of methane as a reactive gas dramatically increases the selectivity of the arc-discharge synthesis of M-Ti-carbide clusterfullerenes (M=Y, Nd, Gd, Dy, Er, Lu). Optimization of the process parameters allows the synthesis of Dy2TiC@C80-I and its facile isolation in a single chromatographic step. A new type of cluster with an endohedral acetylide unit, M2TiC2@C80, is discovered along with the second isomer of M2TiC@C80. Dy2TiC@C80-(I,II) and Dy2TiC2@C80-I are shown to be single-molecule magnets (SMM), but the presence of the second carbon atom in the cluster Dy2TiC2@C80 leads to substantially poorer SMM properties.

References

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