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1. In crystallo homolytic cleavage of a terminal lanthanum( iii )–methyl bond by Cu Kα X-radiation forms a La( ii ) complex

   https://doi.org/10.1039/D5CC04945H  

   Stennett, Cary R; Luevano, Makayla R; Ziller, Joseph W; Evans, William J (January 2026, Chemical Communications)

   A new La(ii) synthesis involves SCXRD experiments on the La(iii) methyl complex La(SAr^iPr6)₂CH₃, Ar^iPr6= C₆H₃-2,6-(C₆H₂-2,4,6-ⁱPr₃)₂, with Cu Kα X-rays that results in homolytic La-CH₃cleavage and formation of the La(ii) complex La(SAr^iPr6)₂. 

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2. The Dialuminene Ar ^iPr8 AlAlAr ^iPr8 (Ar ^iPr8 =C ₆ H‐2,6‐(C ₆ H ₂ ‐2,4,6‐ ⁱ Pr ₃ ) ₂ ‐3,5‐ ⁱ Pr ₂ )

   https://doi.org/10.1002/ange.202412599  

   Lehmann, Annika; Queen, Joshua D; Roberts, Christopher J; Rissanen, Kari; Tuononen, Heikki M; Power, Philip P (December 2024, Angewandte Chemie)

   Abstract Careful analysis of the crystals formed in the reduction of Ar^iPr8AlI₂(Ar^iPr8=C₆H‐2,6‐(C₆H₂‐2,4,6‐ⁱPr₃)₂‐3,5‐ⁱPr₂) with sodium on sodium chloride showed them to contain the long sought‐after dialuminene Ar^iPr8AlAlAr^iPr8(1) that forms alongside the previously characterized alanediyl :AlAr^iPr8. The single crystal X‐ray structure of1revealed a nearly planar,trans‐bent C(ipso)AlAlC(ipso) core with an Al−Al distance of 2.648(2) Å. The molecular and electronic structure of1are consistent with an Al−Al double dative interaction augmented with diradical character and stabilized by dispersion interactions. Density functional theory calculations showed that the reactivity of :AlAr^iPr8with dihydrogen involves1, not :AlAr^iPr8, as the reactive species. In contrast, the reaction of :AlAr^iPr8with ethylene gave two products, the 1,4‐dialuminacyclohexane Ar^iPr8Al(C₂H₄)₂AlAr^iPr8(2) and the aluminacyclopentane Ar^iPr8Al(C₄H₈) (3), that can both form from the aluminacyclopropane intermediate Ar^iPr8Al(C₂H₄). Although the [2+2+2] cycloaddition of1with two equivalents of ethylene was also calculated to be exergonic, it is likely to be kinetically blocked by the numerous isopropyl substituents surrounding the Al−Al bond. Attempts to fine‐tune the steric bulk of the terphenyl ligand to allow stronger Al−Al bonding were unsuccessful, leading to the isolation of the sodium salt of a cyclotrialuminene, Na₂[AlAr^iPr6]₃(4), instead of Ar^iPr6AlAlAr^iPr6. 

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3. Exploring sulfur donor atom coordination chemistry with La( ii ), Nd( ii ), and Tm( ii ) using a terphenylthiolate ligand

   https://doi.org/10.1039/d4cc01037j  

   Gilbert-Bass, Kito; Stennett, Cary R.; Grotjahn, Robin; Ziller, Joseph W.; Furche, Filipp; Evans, William J. (April 2024, Chemical Communications)

   To expand the range of donor atoms known to stabilize 4fⁿ5d¹Ln(ii) ions beyond C, N, and O first row main group donor atoms, the Ln(iii) terphenylthiolate iodides, Ln^III(SAr^iPr6)₂I (Ar^iPr6= C₆H₃-2,6-(C₆H₂-2,4,6-ⁱPr₃)₂, Ln = La, Nd) were reduced to Ln^II(SAr^iPr6)₂complexes. 

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4. H ₃ ⁺ absorption and emission in local (U)LIRGs with JWST/NIRSpec: Evidence for high H ₂ ionization rates

   https://doi.org/10.1051/0004-6361/202451741  

   Pereira-Santaella, Miguel; González-Alfonso, Eduardo; García-Bernete, Ismael; Donnan, Fergus R; Santa-Maria, Miriam G; Goicoechea, Javier R; Lamperti, Isabella; Perna, Michele; Rigopoulou, Dimitra (September 2024, Astronomy & Astrophysics)

   We study the 3.4 − 4.4 μm fundamental rovibrational band of H₃⁺, a key tracer of the ionization of the molecular interstellar medium (ISM), in a sample of 12 local (d < 400 Mpc) (ultra)luminous infrared galaxies ((U)LIRGs) observed with JWST/NIRSpec. TheP,Q, andRbranches of the band are detected in 13 out of 20 analyzed regions within these (U)LIRGs, which increases the number of extragalactic H₃⁺detections by a factor of 6. For the first time in the ISM, the H₃⁺band is observed in emission; we detect this emission in three regions. In the remaining ten regions, the band is seen in absorption. The absorptions are produced toward the 3.4 − 4.4 μm hot dust continuum rather than toward the stellar continuum, indicating that they likely originate in clouds associated with the dust continuum source. The H₃⁺band is undetected in Seyfert-like (U)LIRGs where the mildly obscured X-ray radiation from the active galactic nuclei might limit the abundance of this molecule. For the detections, the H₃⁺abundances,N(H₃⁺)/N_H = (0.5 − 5.5)×10⁻⁷, imply relatively high ionization rates,ζ_H2, of between 3 × 10⁻¹⁶and > 4 × 10⁻¹⁵s⁻¹, which are likely associated with high-energy cosmic rays. In half of the targets, the absorptions are blueshifted by 50–180 km s⁻¹, which is lower than the molecular outflow velocities measured using other tracers such as OH 119 μm or rotational CO lines. This suggests that H₃⁺traces gas close to the outflow-launching sites before it has been fully accelerated. We used nonlocal thermodynamic equilibrium models to investigate the physical conditions of these clouds. In seven out of ten objects, the H₃⁺excitation is consistent with inelastic collisions with H₂in warm translucent molecular clouds (T_kin ∼ 250–500 K andn(H₂) ∼10^2 − 3cm⁻³). In three objects, dominant infrared pumping excitation is required to explain the absorptions from the (3,0) and (2,1) levels of H₃⁺detected for the first time in the ISM. 

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5. Transformation of tetranuclear [{MoO ₃ (L ^cat )Cu} ₂ ] ²⁻ into trinuclear [MoO ₂ (L ^cat ) ₂ Cu ₂ ] and possible implications for the formation of Bis(MPT)Mo by MobA

   https://doi.org/10.1039/D6CC00178E  

   Chandima, A_M Buddhika; Kaluarachchige_Don, Umesh I; Ward, Cassandra L; Lord, Richard L; Groysman, Stanislav (March 2026, Chemical Communications)

   [Mo^VIO₃(L^cat)]²⁻forms a Cu(i)-supported dimeric structure that spontaneously disproportionates into [Mo^VIO₂(L^cat)₂]²⁻and molybdate. This suggests a similar transformation of [{MoO₃(MPT)}₂]⁴⁻into [MoO₂(MPT)₂]²⁻by MobA is feasible. 

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