Abstract

Layered structure of highly crystalline orthorhombic GaOOH nanorods undergo significant lattice distortions leading to amorphisation even when very small amounts of Eu3+ ions (1at.% or more) are present during its synthesis. Local short range order around Ga3+ is unaffected by the structural collapse, even though the lattice disorder increases with increase in Eu3+ content in the lattice, as confirmed from the EXAFS studies. Incorporation of Eu3+ ions at the interlayer spacing of GaOOH lattice and its reaction with structure stabilizing OH linkages in the lattice is responsible for the collapse of the structure leading to amorphisation.

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