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Ammonia-Rich High-Temperature Superconducting Intercalates of Iron Selenide Revealed through Time-Resolved

DOI: 10.1021/ja411624q DOI Help

Authors: Stefan Sedlmaier (University of Oxford) , Simon Cassidy (University of Oxford) , Richard G. Morris (University of Oxford) , Michael Drakopoulos (Diamond Light Source) , Christina Reinhard (Diamond Light Source) , Saul Moorhouse (University of Oxford) , Dermot O'hare (University of Oxford) , Pascal Manuel (ISIS) , Dmitry Khalyavin (ISIS Pulsed Neutron and Muon Source) , Simon J Clarke (University of Oxford)
Co-authored by industrial partner: No

Type: Journal Paper
Journal: Journal Of The American Chemical Society , VOL 136 (2) , PAGES 630 - 633

State: Published (Approved)
Published: January 2014
Diamond Proposal Number(s): 8691

Abstract: The development of a technique for following in situ the reactions of solids with alkali metal/ammonia solutions, using time-resolved X-ray diffraction methods, reveals high-temperature superconducting ammonia-rich intercalates of iron selenide which reversibly absorb and desorb ammonia around ambient temperatures.

Subject Areas: Chemistry


Instruments: I12-JEEP: Joint Engineering, Environmental and Processing

Other Facilities: Also using data from ISIS

Added On: 13/03/2014 09:08

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