Jitka Hreščak scite author profile

The potassium sodium niobate, K0.5Na0.5NbO3, solid solution (KNN) is considered as one of the most promising, environment-friendly, lead-free candidates to replace highly efficient, lead-based piezoelectrics. Since the first reports of KNN, it has been recognized that obtaining phase-pure materials with a high density and a uniform, fine-grained microstructure is a major challenge. For this reason the present paper reviews the different methods for consolidating KNN ceramics. The difficulties involved in the solid-state synthesis of KNN powder, i.e., obtaining phase purity, the stoichiometry of the perovskite phase, and the chemical homogeneity, are discussed. The solid-state sintering of stoichiometric KNN is characterized by poor densification and an extremely narrow sintering-temperature range, which is close to the solidus temperature. A study of the initial sintering stage revealed that coarsening of the microstructure without densification contributes to a reduction of the driving force for sintering. The influences of the (K + Na)/Nb molar ratio, the presence of a liquid phase, chemical modifications (doping, complex solid solutions) and different atmospheres (i.e., defect chemistry) on the sintering are discussed. Special sintering techniques, such as pressure-assisted sintering and spark-plasma sintering, can be effective methods for enhancing the density of KNN ceramics. The sintering behavior of KNN is compared to that of a representative piezoelectric lead zirconate titanate (PZT).

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The influence of different niobium pentoxide precursors on the solid-state synthesis of potassium sodium niobate

Hreščak

Benčan

Rojac

et al. 2013

Journal of the European Ceramic Society

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Dielectric relaxation and charged domain walls in (K,Na)NbO3-based ferroelectric ceramics

Есин

Аликин

Турыгин

et al. 2017

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Donor doping of K 0.5 Na 0.5 NbO 3 ceramics with strontium and its implications to grain size, phase composition and crystal structure

Hreščak

Dražić

Deluca

et al. 2017

Journal of the European Ceramic Society

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Electrophoretic deposition and properties of strontium-doped sodium potassium niobate thick films

Mercier

Malič

Hreščak

et al. 2017

Journal of the European Ceramic Society

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Corrigendum to “Donor doping of K0.5Na0.5NbO3 ceramics with strontium and its implications to grain size, phase composition and crystal structure” [J. Eur. Ceram. Soc. 37/5 (2017) 2073–2082]

Hreščak

Dražić

Deluca

et al. 2017

Journal of the European Ceramic Society

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Solid-state synthesis of undoped and Sr-doped K0.5Na0.5NbO3

Hreščak

Malič

Cilenšek

et al. 2016

J Therm Anal Calorim

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The solid-state synthesis of undoped K 0.5 Na 0.5-NbO 3 (KNN) and KNN doped with 1, 2 and 6 mol% Sr, from potassium, sodium and strontium carbonates with niobium pentoxide, was studied using thermal analysis and in situ high-temperature X-ray diffraction (HT-XRD). The thermogravimetry and the differential thermal analyses with evolved-gas analyses showed that the carbonates, which were previously reacted with the moisture in the air to form hydrogen carbonates, partly decomposed when heated to 200°C. In the temperature interval where the reaction was observed, i.e., between 200 and 750°C, all the samples exhibited the main mass loss in two steps. The first step starts at around 400°C and finishes at 540°C, and the second step has an onset at 540°C and finishes with the end of the reaction between 630 and 675°C, depending on the particle size distribution of the Nb 2 O 5 precursor. According to the HT-XRD analysis, the perovskite phase is formed at 450°C for all the samples, regardless of the Sr content. The formation of a polyniobate phase with a tetragonal tungsten bronze structure was detected by HT-XRD in the KNN with the largest amount of Sr dopant, i.e., 6 mol% of Sr, at 600°C.

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Development of a ternary cyclodextrin–arginine–ciprofloxacin antimicrobial complex with enhanced stability

et al. 2022

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Designing useful functionalities in clinically validated, old antibiotics holds promise to provide the most economical solution for the global lack of effective antibiotics, as undoubtedly a serious health threat. Here we show that using the surface chemistry of the cyclodextrin (βCD) cycle and arginine (arg) as a linker, provides more stable ternary antibiotic complex (βCD-arg-cpx). In contrast to classical less stable inclusion complexes, which only modify antibiotic solubility, here-presented ternary complex is more stable and controls drug release. The components of the complex intensify interactions with bacterial membranes and increase the drug’s availability inside bacterial cells, thereby improving its antimicrobial efficacy and safety profile. Multifunctional antibiotics, formulated as drug delivery systems per se, that take the drug to the site of action, maximize its efficacy, and provide optical detectability are envisaged as the future in fighting against infections. Their role as a tool against multiresistant strains remains as interesting challenge open for further research.

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Jitka Hreščak

Sintering of Lead-Free Piezoelectric Sodium Potassium Niobate Ceramics

The influence of different niobium pentoxide precursors on the solid-state synthesis of potassium sodium niobate

Dielectric relaxation and charged domain walls in (K,Na)NbO3-based ferroelectric ceramics

Donor doping of K 0.5 Na 0.5 NbO 3 ceramics with strontium and its implications to grain size, phase composition and crystal structure

Electrophoretic deposition and properties of strontium-doped sodium potassium niobate thick films

Corrigendum to “Donor doping of K0.5Na0.5NbO3 ceramics with strontium and its implications to grain size, phase composition and crystal structure” [J. Eur. Ceram. Soc. 37/5 (2017) 2073–2082]

Solid-state synthesis of undoped and Sr-doped K0.5Na0.5NbO3

Development of a ternary cyclodextrin–arginine–ciprofloxacin antimicrobial complex with enhanced stability

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