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d/f‐Polypnictides Derived by Non‐Classical Ln<sup>2+</sup> Compounds: Synthesis, Small Molecule Activation and Optical Properties

Niklas Reinfandt, Nadine C. Michenfelder, Christoph Schoo, Ravi Yadav, Stephan Reichl, Sergey N. Konchenko, Andreas‐Neil Unterreiner, Manfred Scheer, Peter W. Roesky

2021Chemistry - A European Journal34 citationsDOIOpen Access PDF

Abstract

Abstract Reduction chemistry induced by divalent lanthanides has been primarily focused on samarium so far. In light of the rich physical properties of the lanthanides, this limitation to one element is a drawback. Since molecular divalent compounds of almost all lanthanides have been available for some time, we used one known and two new non‐classical reducing agents of the early lanthanides to establish a sophisticated reduction chemistry. As a result, six new d/f‐polyphosphides or d/f‐polyarsenides, [K(18‐crown‐6)] [Cp′′ 2 Ln(E 5 )FeCp*] (Ln=La, Ce, Nd; E=P, As) were obtained. Their reactivity was studied by activation of P 4 , resulting in a selective expansion of the P 5 rings. The obtained compounds [K(18‐crown‐6)] [Cp′′ 2 Ln(P 7 )FeCp*] (Ln=La, Nd) are the first examples of an activation of P 4 by a f‐element‐polypnictide complex. Additionally, the first systematic femtosecond (fs)‐spectroscopy investigations of d/f‐polypnictides are presented to showcase the advantages of having access to a broader series of lanthanide compounds.

Topics & Concepts

LanthanideSamariumDivalentChemistryMoleculeReactivity (psychology)Inorganic chemistryCrystallographyStereochemistryPhysical chemistryOrganic chemistryIonMedicineAlternative medicinePathologyOrganometallic Complex Synthesis and CatalysisOrganometallic Compounds Synthesis and CharacterizationLanthanide and Transition Metal Complexes