Dynamic shock wave driven simultaneous crystallographic and molecular switching between α-FeO and FeO nanoparticles - a new finding

Switchable nanostructured materials with a low-cost and fast processing have diverse practical applications in the modern electronic industries, but such materials are highly scarce. Hence, there is a great demand for identifying the externally stimulated solid-state switchable phase transition mate...

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Published in:Dalton transactions : an international journal of inorganic chemistry 2022-06, Vol.51 (23), p.9159-9166
Main Authors: Sivakumar, A, Rita, A, Sahaya Jude Dhas, S, Reddy, K. P. J, Kumar, Raju Suresh, Almansour, Abdulrahman I, Chakraborty, Shubhadip, Moovendaran, K, Sridhar, Jayavel, Martin Britto Dhas, S. A
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Summary:Switchable nanostructured materials with a low-cost and fast processing have diverse practical applications in the modern electronic industries, but such materials are highly scarce. Hence, there is a great demand for identifying the externally stimulated solid-state switchable phase transition materials for several industrial applications. In this paper, we present the experimentally observed solid-state molecular level switchable phase transitions of nanocrystalline iron oxide materials: {α-Fe 2 O 3 ( R -3 c ) to Fe 3 O 4 ( F d-3 m ) and Fe 3 O 4 ( F d-3 m ) to α-Fe 2 O 3 ( R -3 c )} under dynamic shock wave loaded conditions, and the results were evaluated by diffraction, and vibrational and optical spectroscopic techniques. To date, this is most probably the first report which demonstrates the simultaneous molecular and crystallographic switchable-phase-transitions enforced by dynamic shock waves such that the title material is proposed for sensors and molecular switching applications. We present the experimentally observed solid-state molecular level switchable phase transitions of nanocrystalline iron oxide materials {α-Fe 2 O 3 ( R -3 c ) to Fe 3 O 4 ( Fd -3 m ) and Fe 3 O 4 ( Fd -3 m ) to α-Fe 2 O 3 ( R -3 c )} under dynamic shock wave loaded conditions.
ISSN:1477-9226
1477-9234
DOI:10.1039/d2dt01101h