β-Nickel hydroxide cathode material for nano-suspension redox flow batteries

As part of an effort to build a prototype flow battery system using a nano-suspension containing beta-Ni(OH)(2) nanoparticles as the cathode material, nanosized beta-Ni(OH)(2) particles with well-controlled particle size and morphology were synthesized via the one-step precipitation of a NiCl2 precursor. The composition and morphology of the nanoparticles were characterized by scanning electronic microscopy (SEM) and X-ray diffraction (XRD). The XRD patterns confirmed that beta-Ni(OH)(2) was successfully synthesized, while SEM results showed that the particle sizes range from 70 to 150 nm. To ensure that Ni(OH)(2) could be employed in the nano-suspension flow battery, the electrochemical performance of the synthesized beta-Ni(OH)(2) was initially tested in pouch cells through charge/discharge cycling. The phase transformations occurring during charge/discharge were investigated using in-situ X-ray absorption spectroscopy to obtain the shift in the oxidation state of Ni (X-ray adsorption near edge structure, XANES) and the distances between Ni and surrounding atoms in charged and discharged states (extended X-ray absorption fine structure, EXAFS). XANES results indicated that the electrode in the discharged state was a mixture of phases because the edge position did not shift back completely. XAFS results further proved that the discharge capacity was provided by beta-NiOOH and the ratio between beta-Ni(OH)(2) and gamma-NiOOH in the electrode in the discharged state was 71: 29. Preliminary nano-suspension tests in a lab-scale cell were conducted to understand the behavior of the nano-suspension during charge/discharge cycling and to optimize the operating conditions.