钍（III）配合物激活CO过程中伴随的羧酸盐和草酸盐形成

Concomitant Carboxylate and Oxalate Formation From the Activation of CO by a Thorium(III) Complex.

作者信息

Formanuik Alasdair, Ortu Fabrizio, Inman Christopher J, Kerridge Andrew, Castro Ludovic, Maron Laurent, Mills David P

机构信息

School of Chemistry, The University of Manchester, Manchester, M13 9PL, UK.

Department of Chemistry and Biochemistry, School of Life Sciences, University of Sussex, Brighton, BN1 9QL, UK.

出版信息

Chemistry. 2016 Dec 12;22(50):17976-17979. doi: 10.1002/chem.201604622. Epub 2016 Oct 27.

DOI:10.1002/chem.201604622

PMID:27714966

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5215673/

Abstract

Improving our comprehension of diverse CO activation pathways is of vital importance for the widespread future utilization of this abundant greenhouse gas. CO activation by uranium(III) complexes is now relatively well understood, with oxo/carbonate formation predominating as CO is readily reduced to CO, but isolated thorium(III) CO activation is unprecedented. We show that the thorium(III) complex, [Th(Cp'') ] (1, Cp''={C H (SiMe ) -1,3}), reacts with CO to give the mixed oxalate-carboxylate thorium(IV) complex [{Th(Cp'') [κ -O C{C H -3,3'-(SiMe ) }]} (μ-κ :κ -C O )] (3). The concomitant formation of oxalate and carboxylate is unique for CO activation, as in previous examples either reduction or insertion is favored to yield a single product. Therefore, thorium(III) CO activation can differ from better understood uranium(III) chemistry.

摘要

提高我们对各种一氧化碳（CO）活化途径的理解，对于这种丰富的温室气体在未来的广泛利用至关重要。铀（III）配合物对CO的活化目前已相对清楚，由于CO很容易被还原为CO₂，以形成氧代/碳酸盐为主，但孤立的钍（III）对CO的活化尚无先例。我们表明，钍（III）配合物[Th(Cp'')₃]（1，Cp'' = {C₅H₄(SiMe₃) -1,3}）与CO反应，生成草酸酯 - 羧酸盐混合的钍（IV）配合物[{Th(Cp'')₂[κ² -O₂C{C₆H₃ -3,3'-(SiMe₃)₂}]} (μ-κ²:κ² -C₂O₄)]（3）。草酸酯和羧酸盐的同时形成对于CO活化来说是独特的，因为在之前的例子中，要么是还原反应要么是插入反应占主导，从而生成单一产物。因此，钍（III）对CO的活化可能与已被更好理解的铀（III）化学不同。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4f2e/5215673/d03b2697d590/CHEM-22-17976-g003.jpg

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钍（III）配合物激活CO过程中伴随的羧酸盐和草酸盐形成

Concomitant Carboxylate and Oxalate Formation From the Activation of CO by a Thorium(III) Complex.

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