Remarkable Influence of the Cyclometalating Ligand on the Nuclearity and Properties of Hetero-bridged (m-X)(m-CCR) Pt(II) Complexes.

  1. Berenguer, J.R. 1
  2. Díez, A. 1
  3. García, A. 1
  4. Lalinde, E. 1
  5. Moreno, M.T. 1
  6. Sánchez, S. 1
  7. Torroba, J. 1
  1. 1 Universidad de La Rioja
    info

    Universidad de La Rioja

    Logroño, España

    ROR https://ror.org/0553yr311

Revista:
Organometallics

ISSN: 0276-7333

Any de publicació: 2011

Volum: 30

Número: 6

Pàgines: 1646-1657

Tipus: Article

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DOI: 10.1021/OM101172P SCOPUS: 2-s2.0-79952922199 WoS: WOS:000288470900047 GOOGLE SCHOLAR

Altres publicacions en: Organometallics

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Resum

Partial dehalogenation reaction of [Pt(C^N)(μ-Cl)] 2 [C^N = 2,6-diphenylpyridinate (dppyH), 7,8-benzoquinolate (bzq)] with NaC=C tBu (or HC=C tBu/NEt 3/CuI) proceeds with formation of binuclear ([{Pt(dppyH)} 2(μ-Cl)(μ-C=C tBu)], 1) or tetranuclear ([Pt 2(bzq) 2(μ-Cl) (μ-C=C tBu)] 2, 4) complexes, depending on the nature of the cyclometalated ligand. Similar halide-bridged complexes 2, 3, 5, and 6 have also been prepared. The X-ray structures of 1, 4, and 5 reveal the selective formation in all cases of the isomer having the bridging chlorine atom located in a trans position to the metalated carbon atoms of two Pt(C^N) units. In 4 and 5, the tetrahedral Pt 4 core is additionally stabilized by short Pt•••Pt and π•••π intramolecular bonding interactions, which have influence on their photophysical properties. The lower lying absorption bands are ascribed to mixed 1MLCT [Pt→dppyH]/ 1LL′CT [C=CR/X→dppyH] (complexes 1-3) or to 1MMLL′CT transitions (L = C=CR, L′ = bzq) (complexes 4-6, TD-DFT). Complexes 1-3 are nonemissive. By contrast, the tetranuclear clusters are brightly emissive at 77 K (solid state, frozen CH 2Cl 2), exhibiting an unstructured orange emission (560-580 nm). This emission has been attributed, according to computational studies of the frontier orbitals in the optimized T 1 state of 5, to an excited state of large [Pt(d)/π(C=CR)/Pt(d)→bzq/bzq] character, with the LUMO delocalized on the adjacent Pt(bzq) fragments. In frozen CH 2Cl 2, an additional low-energy shoulder (∼640-675 nm) is also detected, probably due to the presence of close distinct emissive states originating in small modifications in the ground-state structure in frozen solution. © 2011 American Chemical Society.