Synthesis of Ln II ‐in‐Cryptand Complexes by Chemical Reduction of Ln III ‐in‐Cryptand Precursors: Isolation of a Nd II ‐in‐Cryptand Complex | Zendy

Huh Daniel N. | Zendy; Ciccone Sierra R. | Zendy; Bekoe Samuel | Zendy; Roy Saswata | Zendy; Ziller Joseph W. | Zendy; Furche Filipp | Zendy; Evans William J. | Zendy

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Synthesis of Ln II ‐in‐Cryptand Complexes by Chemical Reduction of Ln III ‐in‐Cryptand Precursors: Isolation of a Nd II ‐in‐Cryptand Complex

Author(s) -

Huh Daniel N.,

Ciccone Sierra R.,

Bekoe Samuel,

Roy Saswata,

Ziller Joseph W.,

Furche Filipp,

Evans William J.

Publication year - 2020

Publication title -

angewandte chemie international edition

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 5.831

H-Index - 550

eISSN - 1521-3773

pISSN - 1433-7851

DOI - 10.1002/anie.202006393

Subject(s) - cryptand , crypt , chemistry , trifluoromethanesulfonate , lanthanide , ligand (biochemistry) , metal , ion , medicinal chemistry , crystallography , stereochemistry , inorganic chemistry , organic chemistry , catalysis , medicine , biochemistry , receptor , endocrinology

Abstract Lanthanide triflates have been used to incorporate Nd III and Sm III ions into the 2.2.2‐cryptand ligand (crypt) to explore their reductive chemistry. The Ln(OTf) 3 complexes (Ln=Nd, Sm; OTf=SO 3 CF 3 ) react with crypt in THF to form the THF‐soluble complexes [Ln III (crypt)(OTf) 2 ][OTf] with two triflates bound to the metal encapsulated in the crypt. Reduction of these Ln III ‐in‐crypt complexes using KC 8 in THF forms the neutral Ln II ‐in‐crypt triflate complexes [Ln II (crypt)(OTf) 2 ]. DFT calculations on [Nd II (crypt)] 2+ ], the first Nd II cryptand complex, assign a 4f 4 electron configuration to this ion.

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