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Constraint of a ruthenium-carbon triple bond to a five-membered ring.

Qingde ZhuoHong ZhangYuhui HuaHuijun KangXiaoxi ZhouXinlei LinZhixin ChenJianfeng LinKaiyue ZhuoHaiping Xia
Published in: Science advances (2018)
The incorporation of a metal-carbon triple bond into a ring system is challenging because of the linear nature of triple bonds. To date, the synthesis of these complexes has been limited to those containing third-row transition metal centers, namely, osmium and rhenium. We report the synthesis and full characterization of the first cyclic metal carbyne complex with a second-row transition metal center, ruthenapentalyne. It shows a bond angle of 130.2(3)° around the sp-hybridized carbyne carbon, which represents the recorded smallest angle of second-row transition metal carbyne complexes, as it deviates nearly 50° from the original angle (180°). Density functional theory calculations suggest that the inherent aromatic nature of these metallacycles with bent Ru≡C-C moieties enhances their stability. Reactivity studies showed striking observations, such as ambiphilic reactivity, a metal-carbon triple bond shift, and a [2 + 2] cycloaddition reaction with alkyne and cascade cyclization reactions with ambident nucleophiles.
Keyphrases
  • transition metal
  • density functional theory
  • molecular dynamics
  • high resolution
  • molecular dynamics simulations
  • amino acid