2014
DOI: 10.6023/a14060434
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Sixty Years of the Chemistry of Rare-earth Organometallic Complexes

Abstract: Rare-earth elements include scandium, yttrium and fifteen lanthanides. Since Wilkinson and Birmingham reported the fist example of rare-earth organometallic complex, the chemistry of rare-earth organometallic complexes has had a great advance during the past sixty years. A variety of Cp containing rare-earth metal complexes, including mono-Cp, bis-Cp, and tri-Cp complexes, have been synthesized. Variation of the size of substituent on Cp ring, introducing the nitrogen or oxygen containing pendant arm to Cp rin… Show more

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Cited by 19 publications
(10 citation statements)
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References 93 publications
(102 reference statements)
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“…Although other strategies have been suggested to protect BP, this strategy is still attractive due to the following points. First, compared to transition metal elements, Ln elements have bigger atomic radii and larger coordination numbers conducive to coordination of LnL 3 on BP . Secondly, since the 4f electrons do not contribute to bonding between lanthanide and phosphorus, the physical properties of the lanthanide ions are maintained .…”
Section: Methodsmentioning
confidence: 99%
See 1 more Smart Citation
“…Although other strategies have been suggested to protect BP, this strategy is still attractive due to the following points. First, compared to transition metal elements, Ln elements have bigger atomic radii and larger coordination numbers conducive to coordination of LnL 3 on BP . Secondly, since the 4f electrons do not contribute to bonding between lanthanide and phosphorus, the physical properties of the lanthanide ions are maintained .…”
Section: Methodsmentioning
confidence: 99%
“…First, compared to transition metal elements, Ln elements have bigger atomic radii and larger coordination numbers conducive to coordination of LnL 3 on BP. [38] Secondly, since the 4f electrons do not contribute to bonding between lanthanide and phosphorus, the physical properties of the lanthanide ions are maintained. [39] Thirdly, considering the multifunctionality of different lanthanide ions, the strategy may endow special functionalities as discussed in the following section.…”
Section: Black Phosphorusmentioning
confidence: 99%
“…Exploring new oxidation state of rare‐earth metals (scandium, yttrium and lanthanides) is an important and challenging research subject for inorganic and organometallic chemists. Rare‐earth metals all exhibit the stable +3 oxidation state, [ 1 ] while it is more than a century of exploration before the +2 oxidation state is accessible for all rare‐earth elements except radioactive promethium. [ 2 ] Besides, cerium has the +4 oxidation state in molecular complexes, in which its electronic configuration adopts the noble gas xenon (4f 0 ).…”
Section: Introductionmentioning
confidence: 99%
“…These 17 elements have been widely explored in many research fields, including material, coordination, and organometallic chemistry . Since the first rare earth organometallic complex was prepared by Wilkinson and Birmingham in 1954, great advances of rare earth coordination chemistry with mono‐, bis‐, tri‐, and non‐cyclopentadienyl (Cp) ligands have been achieved in the past five decades, comprising a large portion of modern coordination chemistry of rare earth elements. In recent years, polypnictides, the Zintl clusters comprised of pentel elements, have arisen as prevalent new ligand scaffolds for rare earth cations, affording opportunities toward novel structural motif as well as new thermoelectronic devices and catalysts .…”
Section: Introductionmentioning
confidence: 99%