For more than five decades, alkali niobate-based materials (KNaNbO) have been one of the most promising lead-free piezoelectric materials researched to be used in electronics, photocatalysis, energy storage/conversion and medical applications, due to their important health and environmentally friendly nature. In this paper, our strategy was to synthetize the nearest reproductible composition to KNaNbO (KNN) with = 0.5, placed at the limit of the morphotropic phase boundary (MPB) with the presence of both polymorphic phases, orthorhombic and tetragonal. The wet synthesis route was chosen to make the mix crystal powders, starting with the suspension preparation of NbO powder and KOH and NaOH alkaline solutions. Hydrothermal microwave-assisted maturation (HTMW), following the parameter variation = 200-250 °C, = 47-60 bar and dwelling time of 30-90 min, was performed. All powders therefore synthesized were entirely KNNbO solid solutions with = 0.06-0.69, and the compositional, elemental, structural and morphological characterization highlighted polycrystalline particle assemblage with cubic and prismatic morphology, with sizes between 0.28 nm and 2.95 μm and polymorphic O-T phase coexistence, and a piezoelectric constant under 1 pC/N of the compacted unsintered and unpoled discs were found.
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| http://dx.doi.org/10.3390/ma15155410 | DOI Listing |
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Article Synopsis
- Amorphous potassium sodium niobate (KNN) films were created using a sputtering method and then crystallized through annealing at high temperatures in different alkali atmospheres.
- The post-annealing process allowed for the adjustment of sodium and potassium ratios in the films, influencing their composition and physical properties.
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