Tickner Ben J, Semenova Olga, Iali Wissam, Rayner Peter J, Whitwood Adrian C, Duckett Simon B
Centre for Hyperpolarization in Magnetic Resonance (CHyM) , University of York , Heslington , YO10 5NY , UK . Email:
Department of Chemistry , University of York , Heslington , YO10 5DD , UK.
Catal Sci Technol. 2020 Mar 7;10(5):1343-1355. doi: 10.1039/c9cy02498k. Epub 2020 Jan 28.
Hyperpolarisation techniques such as signal amplification by reversible exchange (SABRE) can deliver NMR signals several orders of magnitude larger than those derived under Boltzmann conditions. SABRE is able to catalytically transfer latent magnetisation from -hydrogen to a substrate in reversible exchange temporary associations with an iridium complex. SABRE has recently been applied to the hyperpolarisation of pyruvate, a substrate often used in many MRI studies. In this work, we seek to optimise the pyruvate-C signal gains delivered through SABRE by fine tuning the properties of the active polarisation transfer catalyst. We present a detailed study of the effects of varying the carbene and sulfoxide ligands on the formation and behaviour of the active [Ir(H)(η-pyruvate)(sulfoxide)(NHC)] catalyst to produce a rationale for achieving high pyruvate signal gains in a cheap and refreshable manner. This optimisation approach allows us to achieve signal enhancements of 2140 and 2125-fold for the 1-C and 2-C sites respectively of sodium pyruvate-1,2-[C].
诸如通过可逆交换进行信号放大(SABRE)之类的超极化技术能够产生比在玻尔兹曼条件下获得的NMR信号大几个数量级的信号。SABRE能够在与铱配合物的可逆交换临时缔合中,将潜在磁化从氢催化转移到底物上。SABRE最近已应用于丙酮酸的超极化,丙酮酸是许多MRI研究中常用的底物。在这项工作中,我们试图通过微调活性极化转移催化剂的性质来优化通过SABRE实现的丙酮酸 - C信号增益。我们详细研究了改变卡宾和亚砜配体对活性[Ir(H)(η - 丙酮酸)(亚砜)(NHC)]催化剂的形成和行为的影响,以便为以廉价且可再生的方式实现高丙酮酸信号增益提供理论依据。这种优化方法使我们分别在丙酮酸 - 1,2-[C]钠的1 - C和2 - C位点实现了2140倍和2125倍的信号增强。
