Structuring the Future - Underpinning world-leading science in EaStCHEM through cutting edge characterisation

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Title
Structuring the Future - Underpinning world-leading science in EaStCHEM through cutting edge characterisation

CoPED ID
c2e346d7-b5a5-4ba1-9138-8dee6b475142

Status
Closed

Funders

Value
£1,874,870

Start Date
Jan. 1, 2013

End Date
June 29, 2013

Description

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This proposal is for investment in the infrastructure for structural characterisation in EaStCHEM (Schools of Chemistry at the University of St Andrews and the University of Edinburgh). The utility of many chemicals and materials is intimately connected to their structural architecture, and knowledge of their structure is therefore vital in understanding how to maximise impact and to develop new cutting edge programmes in some of the most important areas of current scientific research. The investment will be in major techniques employed for structural characterisation, single crystal X-ray diffraction (StA), powder X-ray diffraction (StA), solid state NMR (StA), liquid state NMR (UoE), LC-MS (UoE), imaging/ion mobility MS (UoE), underpinning and enabling a significant proportion of the world-leading research in the joint School.

Our vision is to invest heavily in both the infrastructure and training in structural science to provide increased capability for world-leading experiments that will underpin a wide range of our science that has both quality and breadth. The quality of the science that will be enabled through this investment (see below for details) covers science that fits into many of the EPSRC priority areas (e.g. catalysis, energy storage materials, healthcare technologies etc) and many of the Grand Challenge themes (e.g. Dial-a-molecule, Directed assembly of Extended Systems etc). Therefore the National Importance in this proposal is implicit in these EPSRC designations. However, we strive to provide an environment where the quality of the chemistry enabled by investment such as this has significant global impact, and includes specific aims of accelerating our impact on the non-academic world. To this end the EaStCHEM strategy looks to emphasise high impact research that enhances academic-industry interactions with the overall goal of enhancing the economic and social impact of chemistry research as well as promoting fundamental science of the highest possible quality. This strategy includes the development of strong training programmes for graduate students and industrial researchers based around the unique collection of available infrastructure and technical expertise.

There are clear links between the proposed infrastructure and the important challenge themes in the EPSRC portfolio. The Energy, Healthcare Technologies and Manufacturing the Future are the three most pertinent themes which will be directly impacted by the research infrastructure. Within the themes there are many research areas that map directly with the proposed research - many of which have been identified for growth in EPSRC funding (e.g. catalysis, energy storage) as well as other important research areas scheduled for maintained funding (fuel cell technologies, synthetic coordination and supramolecular chemistry etc).

Dusan Uhrin PI_PER
Colin Mackay COI_PER
Eleanor Campbell COI_PER
Juraj Bella RESEARCH_PER

Subjects by relevance
  1. Infrastructures
  2. Chemistry
  3. Research
  4. Investements
  5. Quality
  6. Research programmes
  7. Science

Extracted key phrases
  1. High impact research
  2. Structure
  3. Important research area
  4. Structural science
  5. Research infrastructure
  6. Structural characterisation
  7. Chemistry research
  8. Current scientific research
  9. Significant global impact
  10. Fundamental science
  11. Edge characterisation
  12. Academic world
  13. EPSRC priority area
  14. New cutting edge programme
  15. Important challenge theme

Related Pages

UKRI project entry

UK Project Locations