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Details of Grant 

EPSRC Reference: EP/K035908/1
Title: Transition Metal Alkane Sigma Complexes by Solid-Gas Synthesis Routes: Defining and Exploiting a New Area of Organometallic Chemistry
Principal Investigator: Weller, Professor A
Other Investigators:
Researcher Co-Investigators:
Project Partners:
Department: Oxford Chemistry
Organisation: University of Oxford
Scheme: Standard Research
Starts: 07 October 2013 Ends: 06 October 2015 Value (£): 273,936
EPSRC Research Topic Classifications:
Catalysis & Applied Catalysis Co-ordination Chemistry
EPSRC Industrial Sector Classifications:
No relevance to Underpinning Sectors
Related Grants:
Panel History:
Panel DatePanel NameOutcome
26 Feb 2013 EPSRC Physical Sciences Chemistry - February 2013 Announced
Summary on Grant Application Form
Alkanes are cheap and readily available chemicals and a long-term goal of chemical research has been to develop methods to exploit these species directly as chemical feedstocks. This would greatly improve the overall efficiency of chemical synthesis used in the production of commodity and fine chemicals that underpin the chemical and pharmaceutical industries. In order to achieve this goal the means to "activate" (i.e. break) the notoriously unreactive C-H bond is required. While examples of such C-H activation with transition metal complexes have been reported in recent years, much more information on this process is required before the integration of C-H activation into chemical synthesis is fully realised. Much useful insight could be gained by studying the way an alkane interacts with a metal centre prior to actually cleaving the C-H bond. This requires the means to prepare and study such so-called 'transition metal alkane sigma complexes'; however, until recently, examples of such species have been extremely limited due to the lack of straightforward and predictable general methods of preparation.

Very recently the Weller (experimental chemistry) and Macgregor (computational modelling) research groups have reported a breakthrough in the synthesis and characterisation of transition metal alkane sigma complexes (see Science 2012, 337, 1648). Our approach was to react a transition metal alkene precursor in the crystalline solid-state with hydrogen gas. This produces the equivalent alkane sigma-complex directly in the crystalline state, allowing for its full characterisation by a variety of experimental and complementary computational techniques. This represents a step-change in current state-of-the-art for the synthesis and characterization of transition metal alkane sigma-complexes, opening up the exciting prospect that, for the first time, such species could be routinely synthesized and their chemistry fully understood.

This research proposal seeks support for the Weller and Macgregor groups to fully explore and generalise the new gas-solid synthetic methodology for the synthesis of transition metal alkane sigma-complexes. Our approach will involve experimental synthesis and characterisation allied with the computational modelling; with the latter also providing structural data that are difficult to routinely obtain by experimental means. In addition computational modelling can be used to predict how strong the transition metal-alkane interaction will be. In this way the calculations will be able to target the most promising combinations for further study experimentally, thus significantly enhancing the overall productivity of the project. From our understanding of what makes a transition metal alkane sigma complex stable in the solid state we will then move to develop systems that are also stable in solution in order to provide definitive data on the properties and reactivity (i.e. C-H activation) of such species. Another exciting possibility will be to explore what other chemical transformations occur in the gas-solid regime; for example the commercially important catalytic hydrogenation of alkenes may occur in the solid state, without the need to revert to the use of solvents.

The research in this project is fundamental in nature, however it will deliver significant long-term legacy through developing the chemistry of transition metal alkane sigma-complexes and how such species relates to the key C-H activation process. It will also explore the development of solid-state organometallic chemistry, both in terms of making new organometallic supramolecular complexes, but also, more generally, by exploring the potential of new catalytic processes (especially solid-gas reactions) in the solid state.

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Organisation Website: http://www.ox.ac.uk