Uranium Metalla‐Allenes with Carbene Imido R2C=UIV=NR′ Units (R=Ph2PNSiMe3; R′=CPh3): Alkali‐Metal‐Mediated Push–Pull Effects with an Amido Auxiliary |
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| Authors: | Dr. Erli Lu Dr. Floriana Tuna Dr. William Lewis Prof. Dr. Nikolas Kaltsoyannis Prof. Dr. Stephen T. Liddle |
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| Affiliation: | 1. School of Chemistry, The University of Manchester, Manchester, UK;2. School of Chemistry, The University of Nottingham, Nottingham, UK). |
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| Abstract: | We report uranium(IV)‐carbene‐imido‐amide metalla‐allene complexes [U(BIPMTMS)(NCPh3)(NHCPh3)(M)] (BIPMTMS=C(PPh2NSiMe3)2; M=Li or K) that can be described as R2C=U=NR′ push–pull metalla‐allene units, as organometallic counterparts of the well‐known push–pull organic allenes. The solid‐state structures reveal that the R2C=U=NR′ units adopt highly unusual cis‐arrangements, which are also reproduced by gas‐phase theoretical studies conducted without the alkali metals to remove their potential structure‐directing roles. Computational studies confirm the double‐bond nature of the U=NR′ and U=CR2 interactions, the latter increasingly attenuated by potassium then lithium when compared to the hypothetical alkali‐metal‐free anion. Combined experimental and theoretical data show that the push–pull effect induced by the alkali metal cations and amide auxiliary gives a fundamental and tunable structural influence over the C=UIV=N units. |
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| Keywords: | amido carbene imido metalla-allene push– pull effect uranium |
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