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1. Synthesis and Reactivity of Functionalized Dimethylgermyl Complexes of the Formula (η ⁵ -C ₅ H ₅ )Re(NO)(PPh ₃ )(GeMe ₂ X); Equilibria Involving the Dimethylgermylene Complex [(η ⁵ -C ₅ H ₅ )Re(NO)(PPh ₃ )(=GeMe ₂ )]• TfO ⁻

   https://doi.org/10.1080/10426509408037445  

   Lee, Kenneth E.; Gladysz, J. A. (February 1994, Phosphorus, Sulfur, and Silicon and the Related Elements)
2. The Role of Tunneling in the Spectra of H ₅ ⁺ and D ₅ ⁺ up to 7300 cm ^-1

   https://doi.org/10.1021/acs.jpca.0c02299  

   Boyer, Mark A.; Chiu, Chloe S.; McDonald, David C.; Wagner, J. Philipp; Colley, Jason E.; Orr, Dylan S.; Duncan, Michael A.; McCoy, Anne B. (May 2020, The Journal of Physical Chemistry A)

   The spectra for H5+ and D5+ are extended to cover the region between 4830 and 7300 cm−1. These spectra are obtained using mass-selected photodissociation spectroscopy. To understand the nature of the states that are accessed by the transitions in this and prior studies, we develop a four-dimensional model Hamiltonian. This Hamiltonian is expressed in terms of the two outer H2 stretches, the displacement of the shared proton from the center of mass of these two H2 groups, and the distance between the H2 groups. This choice is motivated by the large oscillator strength associated with the shared proton stretch and the fact that the spectral regions that have been probed correspond to zero, one, and two quanta of excitation in the H2 stretches. This model is analyzed using an adiabatic separation of the H2 stretches from the other two vibrations and includes the non-adiabatic couplings between H2 stretch states with the same number of quanta of excitation in the H2 stretches. Based on the analysis of the energies and wave functions obtained from this model, we find that when there are one or more quanta of excitation in the H2 stretches the states come in pairs that reflect tunneling doublets. The states accessed by the transitions in the spectrum with the largest intensity are assigned to the members of the doublets with requisite symmetry that are localized on the lowest-energy adiabat for a given level of H2 excitation. 

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3. Dinitrogen reduction chemistry with scandium provides a complex with two side-on (NN) ²⁻ ligands bound to one metal: (C ₅ Me ₅ )Sc[(µ-η ² :η ² -N ₂ )Sc(C ₅ Me ₅ ) ₂ ] ₂

   https://doi.org/10.1039/d4sc03977g  

   Queen, Joshua D; Rajabi, Ahmadreza; Goudzwaard, Quinn E; Yuan, Qiong; Nguyen, Dang Khoa; Ziller, Joseph W; Furche, Filipp; Xi, Zhenfeng; Evans, William J (January 2024, Chemical Science)

   Although there are few reduced dinitrogen complexes of scandium, this metal has revealed a new structural type in reductive dinitrogen chemistry by reduction of bis(pentamethylcyclopentadienyl) scandium halides under N2. 

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4. Crystal structure of the [(THF)Cs(μ-η ⁵ :η ⁵ -Cp′) ₃ Yb] _n oligomer

   https://doi.org/10.1107/S2056989020008051  

   Huh, Daniel N.; Ziller, Joseph W.; Evans, William J. (July 2020, Acta Crystallographica Section E Crystallographic Communications)

   null (Ed.)

   The green compound poly[(tetrahydrofuran)tris[μ-η 5 :η 5 -1-(trimethylsilyl)cyclopentadienyl]caesium(I)ytterbium(II)], [CsYb(C 8 H 13 Si) 3 (C 4 H 8 O)] n or [(THF)Cs(μ-η 5 :η 5 -Cp′) 3 Yb II ] n was synthesized by reduction of a red THF solution of (C 5 H 4 SiMe 3 ) 3 Yb III with excess Cs metal and identified by X-ray diffraction. The compound crystallizes as a two-dimensional array of hexagons with alternating Cs I and Yb II ions at the vertices and cyclopentadienyl groups bridging each edge. This, based off the six-electron cyclopentadienyl rings occupying three coordination positions, gives a formally nine-coordinate tris(cyclopentadienyl) coordination environment to Yb and the Cs is ten-coordinate due to the three cyclopentadienyl rings and a coordinated molecule of THF. The complex comprises layers of Cs 3 Yb 3 hexagons with THF ligands and Me 3 Si groups in between the layers. The Yb—C metrical parameters are consistent with a 4 f 14 Yb II electron configuration. 

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5. Redox Studies of the Scandium Metallocene (C ₅ H ₂ ^t Bu ₃ ) ₂ Sc ^II Lead to a Terminal Side-On (N═N) ^2– Complex: [(C ₅ H ₂ ^t Bu ₃ ) ₂ Sc ^III (η ² -N ₂ )] ⁻

   https://doi.org/10.1021/jacs.5c00607  

   Queen, Joshua D; Rajabi, Ahmadreza; Ziller, Joseph W; Furche, Filipp; Evans, William J (April 2025, Journal of the American Chemical Society)