Microwave-Assisted Coprecipitation Synthesis and Local Structural Investigation on NiO, β-Ni(OH)(2)/Co(3)O(4) Nanosheets, and Co(3)O(4) Nanorods Using X-ray Absorption Spectroscopy at Co–Ni K-edge and Synchrotron X-ray Diffraction

[Image: see text] Developing the most straightforward, cheapest, and eco-friendly approaches for synthesizing nanostructures with well-defined morphology having the highest possible surface area to volume ratio is challenging for design and process. In the present work, nanosheets of NiO and β-Ni(OH)(2)/Co(3)O(4), and nanorods of Co(3)O(4) have been synthesized at a large scale via the microwave-assisted chemical coprecipitation method under low temperature and atmospheric pressure. X-ray absorption spectroscopy (XAS) measurements, which comprises both X-ray absorption near-edge structure (XANES) and extended X-ray absorption fine structure (EXAFS) techniques, have been carried out at Co and Ni K-edges to probe the electronic structure of the samples. Also, the local atomic structural, chemical bonding, morphological, and optical properties of the sample were systematically investigated using XAS, synchrotron X-ray diffraction (SXRD), Raman spectroscopy, FTIR, transmission electron microscopy (TEM), and UV–visible spectroscopy. The normalized XANES spectra of the β-Ni(OH)(2)/Co(3)O(4) nanosheets show the presence of Ni(2+) and a mixed oxidation state of Co. The disorder factor decreases from β-Ni(OH)(2)/Co(3)O(4) to Co(3)O(4) with increasing Co–O bond length. The SXRD pattern analyzed using Rietveld refinement reveals that NiO has a face-centered cubic phase, Co(3)O(4) has the standard spinal structure, and β-Ni(OH)(2)/Co(3)O(4) has a mixed phase of hexagonal and cubic structures. TEM images revealed the formation of nanosheets for NiO and β-Ni(OH)(2)/Co(3)O(4) samples and nanorods for Co(3)O(4) samples. FTIR and Raman spectra show the formation of β-Ni(OH)(2)/Co(3)O(4), which reveals the fingerprints of Ni–O and Co–O.