2020
DOI: 10.1021/acs.organomet.0c00211
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Synthesis and Ethylene Reactivity of Dinuclear Iron and Cobalt Complexes Supported by Macrocyclic Bis(pyridine-diimine) Ligands Containing o-Terphenyl Linkers

Abstract: The synthesis and ethylene reactivity of a new family of dinuclear Co2Br4 and Fe2Br4 complexes supported by binucleating macrocyclic bis­(pyridine-diimine) (PDI) ligands that contain 4,4″-R2-3,3″-o-terphenyl linkers (1, R = H; 2, R = Me; 3, R = iPr) are described. In the solid state, (1–3)­M2Br4 (M = Zn, Fe, Co) adopt C s -skew-syn structures in which the (PDI)­M planes are skewed 49–82° relative to each other and both middle rings of the o-terphenyl bridges are on the same side of the molecule. The metal–met… Show more

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Cited by 16 publications
(8 citation statements)
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“…Transition metal complexes supported by redox-active pyridine-diimine ligands have attracted great attention in the field of earth-abundant metal catalysis . In this context, di- or multinuclear transition metal complexes supported by two or more PDI moieties have been developed by Li, Toti, Osakada, Sun, Jordan, and others, which have been studied in catalytic ethylene polymerization. In addition, Tomson and co-workers pioneered elegant studies on interesting structures of PDI-macrocyclic ligand-based binuclear metal complexes and their reactivities on small-molecule activation .…”
Section: Resultsmentioning
confidence: 99%
“…Transition metal complexes supported by redox-active pyridine-diimine ligands have attracted great attention in the field of earth-abundant metal catalysis . In this context, di- or multinuclear transition metal complexes supported by two or more PDI moieties have been developed by Li, Toti, Osakada, Sun, Jordan, and others, which have been studied in catalytic ethylene polymerization. In addition, Tomson and co-workers pioneered elegant studies on interesting structures of PDI-macrocyclic ligand-based binuclear metal complexes and their reactivities on small-molecule activation .…”
Section: Resultsmentioning
confidence: 99%
“…Remarkable advances in homogeneous catalysis have been achieved with systems comprising late transition metals and PDI ligands. To date, several multinuclear transition-metal complexes supported by macrocyclic ligands bearing two or more PDI moieties have been developed, and they exhibited interesting reactivity differences in catalytic ethylene polymerization compared to analogous mononuclear complexes. However, current uses of bis-PDI-based dinuclear complexes in the catalytic methodology are still in their infancy and further research efforts are warranted. In 2017, Tomson and co-workers reported an attractive work describing the dicobalt­(II) complexes bound by pyridyl diimine-containing macrocyclic ligands with flexible links. Additionally, each cobalt atom was bonded by a PMe 3 ligand, which can further react with the dicobalt-bridging nitrides.…”
Section: Resultsmentioning
confidence: 99%
“…1,2 For multinuclear olefin polymerisation catalysts, proximal active sites can react complementarily and synergistically to achieve activity and selectivity that is superior to their mononuclear analogues. 3,4 Design strategies for bimetallic systems feature judiciously constructed bis-ligand assemblies, which can be (1) flexible, in order to adopt optimal structures to minimise activation energies [including constrained geometry catalysts of Zr 2 5 and Ti 2 6,7 (plus heteronuclear Ti–Cr 8 ), Cp*-amidinate-Zr 2 9 ], or (2) conformationally constrained (shape-persistent) or rigid, 10,11 to impart favourable entropic terms [including phenoxyimine-Ti 2 and -Zr 2 , 12,13 pyridylamide-Hf 2 , 14 amine-bis(phenolate)-Zr 2 , 15 μ-( cis -C 4 H 4 )-Ti 2 16 ].…”
Section: Introductionmentioning
confidence: 99%