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1. Solid-State End-On to Side-On Isomerization of (N═N) 2– in {[(R 2 N) 3 Nd] 2 N 2 } 2– (R = SiMe 3 ) Connects In Situ Ln III (NR 2 ) 3 /K and Isolated [Ln II (NR 2 ) 3 ] 1– Dinitrogen Reduction

   https://doi.org/10.1021/jacs.2c06716  

   Chung, Amanda B. ; Rappoport, Dmitrij ; Ziller, Joseph W. ; Cramer, Roger E. ; Furche, Filipp ; Evans, William J. ( September 2022 , Journal of the American Chemical Society)
2. Efficient Removal of Cs + and Sr 2+ Ions by Granulous (Me 2 NH 2 ) 4/3 (Me 3 NH) 2/3 Sn 3 S 7 ·1.25H 2 O/Polyacrylonitrile Composite

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   Li, Jilong ; Jin, Jiance ; Zou, Yanmin ; Sun, Haiyan ; Zeng, Xi ; Huang, Xiaoying ; Feng, Meiling ; Kanatzidis, Mercouri G. ( March 2021 , ACS Applied Materials & Interfaces)

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3. Electronic structure of (MePh 3 P) 2 [Ni II (bdtCl 2 ) 2 ]·2(CH 3 ) 2 SO and (MePh 3 P)[Ni III (bdtCl 2 ) 2 ] (bdtCl 2 = 3,6-dichlorobenzene-1,2-dithiolate)

   https://doi.org/10.1107/S2052520621011495  

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   High-resolution X-ray diffraction experiments, theoretical calculations and atom-specific X-ray absorption experiments were used to investigate two nickel complexes, (MePh 3 P) 2 [Ni II (bdtCl 2 ) 2 ]·2(CH 3 ) 2 SO [complex (1)] and (MePh 3 P)[Ni III (bdtCl 2 ) 2 ] [complex (2)]. Combining the techniques of nickel K - and sulfur K -edge X-ray absorption spectroscopy with high-resolution X-ray charge density modeling, together with theoretical calculations, the actual oxidation states of the central Ni atoms in these two complexes are investigated. Ni ions in two complexes are clearly in different oxidation states: the Ni ion of complex (1) is formally Ni II ; that of complex (2) should be formally Ni III , yet it is best described as a combination of Ni 2+ and Ni 3+ , due to the involvement of the non-innocent ligand in the Ni— L bond. A detailed description of Ni—S bond character (σ,π) is presented. 

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4. Rapid Simultaneous Removal of Toxic Anions [HSeO 3 ] − , [SeO 3 ] 2– , and [SeO 4 ] 2– , and Metals Hg 2+ , Cu 2+ , and Cd 2+ by MoS 4 2– Intercalated Layered Double Hydroxide

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5. Collision‐induced dissociation of [UO 2 (NO 3 ) 3 ] − and [UO 2 (NO 3 ) 2 (O 2 )] − and reactions of product ions with H 2 O and O 2

   https://doi.org/10.1002/jms.4705  

   Bubas, Amanda R. ; Perez, Evan ; Metzler, Luke J. ; Rissler, Scott D. ; Van Stipdonk, Michael J. ( February 2021 , Journal of Mass Spectrometry)

   Electrospray ionization (ESI) can produce a wide range of gas‐phase uranyl (UO₂²⁺) complexes for tandem mass spectrometry studies of intrinsic structure and reactivity. We describe here the formation and collision‐induced dissociation (CID) of [UO₂(NO₃)₃]⁻and [UO₂(NO₃)₂(O₂)]⁻. Multiple‐stage CID experiments reveal that the complexes dissociate in reactions that involve elimination of O₂, NO₂, or NO₃, and subsequent reactions of interesting uranyl‐oxo product ions with (neutral) H₂O and/or O₂were investigated. Density functional theory (DFT) calculations reproduce experimental results and show that dissociation of nitrate ligands, with ejection of neutral NO₂, is favored for both [UO₂(NO₃)₃]⁻and [UO₂(NO₃)₂(O₂)]⁻. DFT calculations also suggest that H₂O adducts to products such as [UO₂(O)(NO₃)]⁻spontaneously rearrange to create dihydroxides and that addition of O₂is favored over addition of H₂O to formally U(V) species.

    

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