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Research project

B Hayden - EPSRC Advanced Material Capital Equipment

Project overview

X-ray diffraction is the main technique by which scientists and engineers study the structures of crystalline materials, however some sample types are often neglected due to the requirement for specialised instrumentation and expertise. This proposal provides advanced equipment to apply diffraction and related methods to a series of lesser-studied sample types of great importance in technology and in understanding environmental processes. These include thin layers of material on surfaces, where information about atomic separations, particle sizes, crystal orientation and changes in the size of the lattice due to interactions with the underlying material can be obtained. This will be critical to the understanding of a range of functional materials with applications in energy conversion and storage, electronics, optoelectronics and engineering. It will also be possible to study very small regions of a material, this is important in examination of single components or regions of a sample where variations are important in understanding properties. Sample types include minerals, where the structure of individual grains will contribute to knowledge of interactions with the environment, and single components of grids of material designed to have specific interactions with light.

Staff

Lead researchers

Emeritus Professor Brian Hayden

Connect with Brian

Email: B.E.Hayden@soton.ac.uk

Collaborating research institutes, centres and groups

Research outputs

Christian Bengs, Laurynas Dagys & Malcolm H. Levitt, 2020, Journal of Magnetic Resonance, 321
DOI:
Type: article
Sergey S. Zhukov, Vasileios Balos, Gabriela Hoffman, Shamim Alom, Mikhail Belyanchikov, Mehmet Nebioglu, Seulki Roh, Artem Pronin, George Razvan Bacanu, Pavel Abramov, Martin Wolf, Martin Dressel, Malcolm H. Levitt, Richard J. Whitby, Boris Gorshunov & Mohsen Sajadi, 2020, Scientific Reports, 10(1)
DOI:
Type: article
Callum Littlejohns, David Rowe, Han Du, Ke Li, Weiwei Zhang, Wei Cao, Thalia Domínguez Bucio, Xingzhao Yan, Mehdi Banakar, Denh Tran, Shenghao Liu, Fanfan Meng, Bigeng Chen, Yanli Qi, Xia Chen, Miloš Nedeljković, Lorenzo Mastronardi, Rijan Maharjan, Sanket Bohora, Ashim Dhakal, Iain Crowe, Ankur Khurana, Krishna Balram, Luca Zagaglia, Francesco Floris, Peter O'Brien, Eugenio Di Gaetano, Harold Chong, Frederic Gardes, David Thomson, Goran Mashanovich, Marc Sorel & Graham Reed, 2020, Applied Sciences, 10(22), 1-34
DOI:
Type: review
George Razvan Bacanu, Jyrki Rantaharju, Gabriela Hoffman, Mark Walkey, Sally Bloodworth, Maria Concistre, Richard J. Whitby & Malcolm H. Levitt, 2020, Journal of the American Chemical Society, 142(40), 16926–16929
DOI:
Type: article
Johannes Biskupek, Stephen T. Skowron, Craig T. Stoppiello, Graham A. Rance, Shamim Alom, Kayleigh L. Y. Fung, Richard J. Whitby, Malcolm H. Levitt, Quentin M. Ramasse, Ute Kaiser, Elena Besley & Andrei N. Khlobystov, 2020, ACS Nano, 14(9), 11178-11189
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Type: article
Sally Bloodworth, Gabriela Hoffman, Mark Walkey, George Razvan Bacanu, Julie Herniman, Malcolm H. Levitt & Richard J. Whitby, 2020, Chemical Communications, 56(72), 10521-10524
DOI:
Type: article
Samuel Fitch, Giannantonio Cibin, Steven Hepplestone, Nuria Garcia-Araez & Andrew L. Hector, 2020, Journal of Materials Chemistry A, 8(32), 16437-16450
DOI:
Type: article