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Reference Number EP/W021080/1
Title SuperSTEM: National Research Facility for Advanced Electron Microscopy
Status Started
Energy Categories NOT ENERGY RELATED 95%;
OTHER CROSS-CUTTING TECHNOLOGIES or RESEARCH(Other Supporting Data) 5%;
Research Types Basic and strategic applied research 100%
Science and Technology Fields PHYSICAL SCIENCES AND MATHEMATICS (Chemistry) 35%;
PHYSICAL SCIENCES AND MATHEMATICS (Physics) 35%;
PHYSICAL SCIENCES AND MATHEMATICS (Metallurgy and Materials) 30%;
UKERC Cross Cutting Characterisation Not Cross-cutting 100%
Principal Investigator Professor Q Ramasse

Chemical and Process Engineerin
University of Leeds
Award Type Standard
Funding Source EPSRC
Start Date 14 March 2022
End Date 13 March 2027
Duration 60 months
Total Grant Value £4,023,848
Industrial Sectors No relevance to Underpinning Sectors
Region Yorkshire & Humberside
Programme NC : Physical Sciences
 
Investigators Principal Investigator Professor Q Ramasse , Chemical and Process Engineerin, University of Leeds (99.990%)
  Other Investigator Professor R M D (Rik ) Brydson , Institute of Materials Research, University of Leeds (0.001%)
Dr PD Nellist , Materials, University of Oxford (0.001%)
Dr R Nicholls , Materials, University of Oxford (0.001%)
Professor M A (Michael ) Burke , Materials, University of Manchester (0.001%)
Dr V Lazarov , Physics, University of York (0.001%)
Dr D Kepaptsoglou , Physics, University of York (0.001%)
Dr DA MacLaren , School of Physics and Astronomy, University of Glasgow (0.001%)
Dr SM Collins , Chemical and Process Engineerin, University of Leeds (0.001%)
Professor ND Browning , Mech, Materials & Aerospace Engineerin, University of Liverpool (0.001%)
Dr D Muecke-Herzberg , Mech, Materials & Aerospace Engineerin, University of Liverpool (0.001%)
  Industrial Collaborator Project Contact , EURATOM/CCFE (0.000%)
Project Contact , Queen's University Belfast (0.000%)
Web Site
Objectives
Abstract This proposal requests funding for the provision of SuperSTEM, the EPSRC National Research Facility for Advanced Electron Microscopy (AdvEM), for 5 years from 14 March 2022, together with additional capital funding for a unique, next-generation instrument with capabilities tailored for the study of quantum materials and phenomena.Since its inception 20 years ago, and since 2011 as the EPSRC NRF for AdvEM, SuperSTEM, has become an internationally renowned user centre. It offers access to world-leading scanning transmission electron microscopy (STEM) instrumentation and expertise for the direct imaging of atomic structures and the determination of chemical composition, bonding and vibrational properties, with a focus on single-atom precision and sensitivity. The NRF enables the elucidation of structure-property relationships in materials and devices for the benefit of a community drawn from over 30 EPSRC Research Areas, both academic and industrial, in fields as diverse as catalysis, energy conversion and storage, bio-materials, organic and inorganic chemistry, mineralogy, planetary science, nuclear materials, condensed matter physics and quantum materials.The requested funding will provide 5 more years of continued support at a guaranteed service capacity for the worldwide scientific community to access these unique microscopes and expertise not available at institutional level. It will support dedicated collaborative research and training in the interpretation and analysis of AdvEM data. While the Facility's most recent instrument currently boasts internationally leading energy resolutions, this proposal also includes a visionary plan and funding request for a next-generation instrument with transformative capabilities. In particular, the ability to observe samples at liquid helium temperatures in a magnetic-field-free sample environment, while maintaining ultra-high energy and spatial resolution would be world-unique.This new QuantumSTEM instrument will enable the study of the electronic structure of materials across phase or state transitions, as well as the vibrational fingerprinting of soft matter (such as single molecules, biomaterials, molecular crystals, etc...), bringing to bear the benefits of monochromation on a wider range of systems where low temperature observation can help mitigate beam damage or induce novel physical phenomena. Combined with external sample stimulation by varying the magnetic field materials experience within the microscope, or subjecting them to controlled electrothermal stimuli, the spectroscopic signature of quantum phenomena, e.g. quasiparticles beyond phonons (gauge bosons, magnons), will become accessible at the atomic scale. These themes are central to the emerging field of quantum materials, an area of strategic importance for UK research investment. QuantumSTEM will expand electron microscopy into experimental territory associated with resonant inelastic X-ray scattering at a fraction of the cost andwith orders of magnitude higher spatial resolution and detection efficiency.
Publications (none)
Final Report (none)
Added to Database 25/05/22