Effect of isoelectronic doping on honeycomb lattice iridate A2IrO3

Abstract

We have investigated experimentally and theoretically the series (Na1-xLix)2IrO3. Contrary to what has been believed so far, only for x≤0.25 the system forms uniform solid solutions. For larger Li content, as evidenced by powder X-ray diffraction, scanning electron microscopy and density functional theory calculations, the system shows a miscibility gap and a phase separation into an ordered Na3LiIr2O6 phase with alternating Na3 and LiIr2O6 planes, and a Li-rich phase close to pure Li2IrO3. For x≤ 0.25 we observe (1) an increase of c/a with Li doping up to x=0.25, despite the fact that c/a in pure Li2IrO3 is smaller than in Na2IrO3, and (2) a gradual reduction of the antiferromagnetic ordering temperature TN and ordered moment. The previously proposed magnetic quantum phase transition at x≈ 0.7 may occur in a multiphase region and its nature needs to be re-evaluated.