NMR and IR Studies of Activation of Small Molecules by Organometallic Complexes

有机金属配合物活化小分子的核磁共振和红外研究

• 批准号: EP/D055768/1
• 负责人: Robin Perutz
• 金额: $ 34.98万
• 依托单位: University of York
• 依托单位国家: 英国
• 项目类别: Research Grant
• 财政年份: 2006
• 资助国家: 英国
• 起止时间: 2006 至 无数据
• 项目状态: 已结题
• 来源: https://gtr.ukri.org/projects?ref=EP%2FD055768%2F1
• 关键词: NMR; IR; Studies; Activation; Small

Most chemical reactions proceed through a series of stages, some fast and some slow. En route, there are often highly reactive species that may last a small fraction of a second at room temperature. The nature and reactivity of these species is often key to determining the final outcome of the chemical reaction. Furthermore, these short-lived species are molecules of fundamental interest in their own right which often cannot be studied by conventional techniques. Photochemical reactions can occur at low temperatures and can be initiated by lasers and this provides a very convenient method for generating highly reactive complexes. In this proposal, we will develop a new approach combining advanced spectroscopic techniques. We will irradiate samples with a laser inside the probe of a state-of-the-art nuclear magnetic resonance (NMR) spectrometer at low temperatures, so allowing us to determine the structures of new reactive molecules. In order to achieve this, we require our new complexes to be stable for a few seconds and we will use fast infrared spectroscopic measurements in order to determine the best conditions to allow these measurements. This combination of technologies exploits the latest instrumentation in a way that has never been done before. Our chemical targets will be (a) complexes of metals with carbon dioxide, important intermediates for understanding how to mitigate greenhouse gases, (b) complexes of hydrocarbons with metals, important intermediates for understanding how to convert methane to valuable products catalytically, (c) reactions of simple silicon and nitrogen compounds at transition metals, concentrating on processes in which bonds to hydrogen are broken because of their importance in catalysis; (d) complexes of transition metals with the noble gas, xenon, because of the fundamental importance of this unreactive gas.

大多数化学反应都会经历一系列阶段，有的快，有的慢。途中，通常存在高反应性物质，它们在室温下可能持续不到一秒钟。这些物质的性质和反应性通常是决定化学反应最终结果的关键。此外，这些寿命较短的物种本身就是具有根本意义的分子，通常无法通过传统技术进行研究。光化学反应可以在低温下发生，并且可以由激光引发，这为生成高反应性复合物提供了非常方便的方法。在本提案中，我们将开发一种结合先进光谱技术的新方法。我们将在低温下用最先进的核磁共振 (NMR) 光谱仪探头内的激光照射样品，从而使我们能够确定新的反应分子的结构。为了实现这一目标，我们要求我们的新复合物稳定几秒钟，并且我们将使用快速红外光谱测量来确定进行这些测量的最佳条件。这种技术组合以前所未有的方式利用了最新的仪器。我们的化学目标将是（a）金属与二氧化碳的络合物，了解如何减少温室气体的重要中间体，（b）碳氢化合物与金属的络合物，了解如何催化将甲烷转化为有价值的产品的重要中间体，（c）简单的硅和氮化合物在过渡金属上的反应，集中于氢键断裂的过程，因为它们在催化中的重要性； (d) 过渡金属与稀有气体氙的络合物，因为这种惰性气体具有根本重要性。

项目成果

Generation of Long-Lived Rhenium Alkane Complexes

长寿命铼烷烃配合物的生成

• 发表时间: 2009
• 作者: N/a Calladine

Photochemical pump and NMR probe: chemically created NMR coherence on a microsecond time scale.

• DOI: 10.1021/ja504732u
• 发表时间: 2014-06
• 期刊: Journal of the American Chemical Society
• 影响因子: 15
• 作者: Olga Torres;B. Procacci;M. Halse;R. W. Adams;D. Blazina;S. Duckett;Beatriz Eguillor;R. A. Green;R. Perutz;D. C. Williamson

Photochemical generation of an organometallic alkane complex with near UV radiation

近紫外辐射下光化学生成有机金属烷烃配合物

• 发表时间: 2010
• 期刊: Organometallics
• 影响因子: 2.8
• 作者: N/a Duckett

A first row transition metal alkane complex detected by NMR and IR spectroscopy in solution: CpMn(CO)2(propane)

通过NMR和IR光谱在溶液中检测到的第一排过渡金属烷烃配合物：CpMn(CO)2(丙烷)

• 发表时间: 2010
• 期刊: Journal of the American Chemical Society
• 影响因子: 15
• 作者: N/a Duckett

Formation of Long-Lived Organometallic Alkane Complexes Investigated by IR and NMR Spectroscopy

通过红外和核磁共振光谱研究长寿命有机金属烷烃配合物的形成

• 发表时间: 2010
• 作者: N/a Calladine