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1. Evaluating electrochemical accessibility of 4f ⁿ 5d ¹ and 4f ⁿ⁺¹ Ln( ii ) ions in (C ₅ H ₄ SiMe ₃ ) ₃ Ln and (C ₅ Me ₄ H) ₃ Ln complexes

   https://doi.org/10.1039/D1DT02427B  

   Trinh, Michael T.; Wedal, Justin C.; Evans, William J. (October 2021, Dalton Transactions)

   The reduction potentials (reported vs. Fc + /Fc) for a series of Cp′ 3 Ln complexes (Cp′ = C 5 H 4 SiMe 3 , Ln = lanthanide) were determined via electrochemistry in THF with [ n Bu 4 N][BPh 4 ] as the supporting electrolyte. The Ln( iii )/Ln( ii ) reduction potentials for Ln = Eu, Yb, Sm, and Tm (−1.07 to −2.83 V) follow the expected trend for stability of 4f 7 , 4f 14 , 4f 6 , and 4f 13 Ln( ii ) ions, respectively. The reduction potentials for Ln = Pr, Nd, Gd, Tb, Dy, Ho, Er, and Lu, that form 4f n 5d 1 Ln( ii ) ions ( n = 2–14), fall in a narrow range of −2.95 V to −3.14 V. Only cathodic events were observed for La and Ce at −3.36 V and −3.43 V, respectively. The reduction potentials of the Ln( ii ) compounds [K(2.2.2-cryptand)][Cp′ 3 Ln] (Ln = Pr, Sm, Eu) match those of the Cp′ 3 Ln complexes. The reduction potentials of nine (C 5 Me 4 H) 3 Ln complexes were also studied and found to be 0.05–0.24 V more negative than those of the Cp′ 3 Ln compounds. 

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2. Synthesis and reduction of [(C ₅ H ₄ SiMe ₃ ) ₂ Ln(μ-OR)] ₂ (Ln = La, Ce) complexes: structural effects of bridging alkoxides

   https://doi.org/10.1039/D4DT02137A  

   Brown, Adrian N; Kelleher, Jack N; Brown, Alexander M; Saghy, Peter; Bohl, Joshua J; Robinson, Jerome R; Huh, Daniel N (January 2024, Dalton Transactions)

   Alcoholysis of (C₅H₄SiMe)₃Ln results in bimetallic complexes with unexpected decreases in Ln⋯Ln distances as bridging alkoxides become bulkier. These complexes were characterized by DOSY NMR, CV, DPV, and a La^IIspecies was observed by EPR. 

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3. Synthesis of Crystallographically Characterizable Bis(cyclopentadienyl) Sc(II) Complexes: (C ₅ H ₂ ^t Bu ₃ ) ₂ Sc and {[C ₅ H ₃ (SiMe ₃ ) ₂ ] ₂ ScI} ^1–

   https://doi.org/10.1021/jacs.3c11922  

   Queen, Joshua D.; Anderson-Sanchez, Lauren M.; Stennett, Cary R.; Rajabi, Ahmadreza; Ziller, Joseph W.; Furche, Filipp; Evans, William J. (February 2024, Journal of the American Chemical Society)

   The synthesis of previously unknown bis(cyclopentadienyl) complexes of the first transition metal, i.e., Sc(II) scandocene complexes, has been investigated using C5H2(tBu)3 (Cpttt), C5Me5 (Cp*), and C5H3(SiMe3)2 (Cp″) ligands. Cpttt 2ScI, 1, formed from ScI3 and KCpttt, can be reduced with potassium graphite (KC8) in hexanes to generate dark-red crystals of the first crystallographically characterizable bis(cyclopentadienyl) scandium(II) complex, Cpttt 2Sc, 2. Complex 2 has a 170.6° (ring centroid)-Sc-(ring centroid) angle and exhibits an eight-line EPR spectrum characteristic of Sc(II) with Aiso = 82.6 MHz (29.6 G). It sublimes at 200 °C at 10−4 Torr and has a melting point of 268−271 °C. Reductions of Cp*2ScI and Cp″2ScI under analogous conditions in hexanes did not provide new Sc(II) complexes, and reduction of Cp*2ScI in benzene formed the Sc(III) phenyl complex, Cp*2Sc(C6H5), 3, by C−H bond activation. However, in Et2O and toluene, reduction of Cp*2ScI at −78 °C gives a dark-red solution, 4, which displays an eight-line EPR pattern like that of 1, but it did not provide thermally stable crystals. Reduction of Cp″2ScI, in THF or Et2O at −35 °C in the presence of 2.2.2-cryptand, yields the green Sc(II) metallocene iodide complex, [K(crypt)][Cp″2ScI], 5, which was identified by X-ray crystallography and EPR spectroscopy and is thermally unstable. The analogous reaction of Cp*2ScI with KC8 and 18-crown-6 in Et2O gave the ligand redistribution product, [Cp*2Sc(18- crown-6-κ2O,O′)][Cp*2ScI2], 6, as the only crystalline product. Density functional theory 

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4. Synthesis and Oxidation of Dirhenium C ₄ , C ₆ , and C ₈ Complexes of the Formula (η ⁵ -C ₅ Me ₅ )Re(NO)(PR ₃ )(C⋮C) _n (R ₃ P)(ON)Re(η ⁵ -C ₅ Me ₅ ) (R = 4-C ₆ H ₄ R‘, c-C ₆ H ₁₁ ):  In Search of Dications and Radical Cations with Enhanced Stabilities ^†

   https://doi.org/10.1021/om000961m  

   Meyer, Wayne E.; Amoroso, Angelo J.; Horn, Clemens R.; Jaeger, Monika; Gladysz, J. A. (March 2001, Organometallics)
5. Tetramethylcyclopentadienyl Ligands Allow Isolation of Ln(II) Ions across the Lanthanide Series in [K(2.2.2-cryptand)][(C ₅ Me ₄ H) ₃ Ln] Complexes

   https://doi.org/10.1021/acs.organomet.8b00557  

   Jenkins, Tener F.; Woen, David H.; Mohanam, Luke N.; Ziller, Joseph W.; Furche, Filipp; Evans, William J. (October 2018, Organometallics)