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1. High-valent osmium iminoxolene complexes

   https://doi.org/10.1039/d0dt01735c  

   Gianino, Jacqueline; Erickson, Alexander N.; Markovitz, Sean J.; Brown, Seth N. (June 2020, Dalton Transactions)

   2-(Arylamino)-4,6-di- tert -butylphenols containing 4-substituted phenyl groups ( R apH 2 ) react with oxobis(ethylene glycolato)osmium( vi ) in acetone to give square pyramidal bis(amidophenoxide)oxoosmium( vi ) complexes. A mono-amidophenoxide complex is observed as an intermediate in these reactions. Reactions in dichloromethane yield the diolate ( H ap) 2 Os(OCH 2 CH 2 O). Both the glycolate and oxo complex are converted to the corresponding cis -dichloride complex on treatment with chlorotrimethylsilane. The novel bis(aminophenol) ligand EganH 4 , containing an ethylene glycol dianthranilate bridge, forms the chelated bis(amidophenoxide) complex (Egan)OsO, where the two nitrogen atoms of the tetradentate ligand bind in the trans positions of the square pyramid. Structural and spectroscopic features of the complexes are described well by an osmium( vi )-amidophenoxide formulation, with the amount of π donation from ligand to metal increasing markedly as the co-ligands change from oxo to diolate to dichloride. In the oxo-bis(amidophenoxides), the symmetry of the ligand π orbitals results in only one effective π donor interaction, splitting the energy of the two osmium-oxo π* orbitals and rendering the osmium-oxo bonding appreciably anisotropic. 

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2. Osmium ester-hinged chlorin dimers

   https://doi.org/10.1142/S1088424623500888  

   Chaudhri, Nivedita; Dorazio, Sarina J.; Samankumara, Lalith P.; Daddario, Pedro; Head, Michelle L.; Zeller, Matthias; Bruckner, Christian (July 2023, Journal of Porphyrins and Phthalocyanines)
3. Origin of Magnetism in a Supposedly Nonmagnetic Osmium Oxide

   https://doi.org/10.1103/PhysRevLett.133.066501  

   Agrestini, S; Borgatti, F; Florio, P; Frassineti, J; Fiore_Mosca, D; Faure, Q; Detlefs, B; Sahle, C J; Francoual, S; Choi, J; et al (August 2024, Physical review letters)
4. Pushing steric limits in osmium(IV) tetraaryl complexes

   https://doi.org/10.1039/D2DT01706G  

   Parr, Joseph Michael; Olivar, Clarissa; Saal, Thomas; Haiges, Ralf; Inkpen, Michael Stephen (July 2022, Dalton Transactions)

   Investigations into the reactivity, properties, and applications of osmium(IV) tetraaryl complexes have been hampered by their low yielding syntheses from volatile and toxic OsO4 (typically ≤34%). Here we show that known air-stable M(aryl)4 compounds (M = Os, Ru; aryl = 2-tolyl, 2,5-xylyl) can be prepared in ≤73% yields using new, less hazardous (Oct4N)2[MX6] precursors (M = Os, Ru; X = Cl, Br). This approach also facilitates the preparation of Os(mesityl)4 (Os3) for the first time, a complex comprising bulky 2,6-dimethyl substituted aryl ligands, albeit in low yield (5%). To better understand these yield extremes, we track, by synthesizing two additional new complexes with different 2-substituted σ-aryl ligands, a clear relationship between the yields of Os(aryl)4 and ligand steric bulk. Single-crystal X-ray structures of these compounds indicate that the observed yield trend reflects the ease of accommodating aryl substituents into an open pocket that lies directly opposite each M-aryl coordination site. We perform variable-temperature 1H NMR studies of Os3, utilize a "tetrahedricity" metric to assess geometric distortion in Ru(aryl)4 and Os(aryl)4 materials, and calculate cone angle and percentage buried volume metrics to further illustrate and help quantify -aryl ligand steric properties. Solution cyclic voltammograms of Os(aryl)4 show that the potentials of their reversible 1−/0 and 0/1+ redox features can be fine-tuned by varying aryl substituents, and that Os3 exhibits an additional 1+/2+ redox event not previously observed in this class of compounds. Taken together, this work helps to advance the potential application of these relatively underexplored organometallic complexes in established and emerging areas of molecular materials science, such as extended molecular frameworks and self-assembled monolayers, where analogous tetraphenylmethane and silane species (M = C, Si) have been frequently targeted. 

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5. Osmium(IV) Tetraaryl Complexes Formed from Prefunctionalized Ligands

   https://doi.org/10.1021/acs.inorgchem.4c05589  

   Olivar, Clarissa; Parr, Joseph_M; Avedian, Cynthia; Saal, Thomas; Zagami, Luana; Haiges, Ralf; Sharma, Mukund; Inkpen, Michael_S (March 2025, Inorganic Chemistry)