Ca2+ doping effects in (K, Na, Li)(Nb0.8Ta0.2)O3 lead-free piezoelectric ceramics

“…Hagh et al 81 reported an increase in resistivity by doping with 0.5-1.5 mol% Ba 2+ in bulk KNN, implying that Ba 2+ acts as a donor dopant in KNN. A similar effect might be expected for doping with other alkali earth metals, such as Ca 2+ , but this was not observed in the present work or in literature on bulk KNN [63][64][65] .…”

“…Ca 2+ and Ti 4+ are both non-toxic, and therefore suitable for in vivo applications 61,62 . Ca 2+ doping is reported to have a softening effect on the ferroelectric properties of bulk KNN 63 , improve dielectric properties 64 and to increase the piezoelectric coefficient (d 33 or d 33 * ) compared to undoped KNN [63][64][65][66] . Enhanced ferroelectric performance has been reported for bulk KNN doped with 0.55, 1 and 5 mol% CaTiO3 [67][68][69][70][71] .…”

Ferroelectric and dielectric properties of Ca²⁺-doped and Ca²⁺–Ti⁴⁺co-doped K_0.5Na_0.5NbO₃thin films

“…Hagh et al 81 reported an increase in resistivity by doping with 0.5-1.5 mol% Ba 2+ in bulk KNN, implying that Ba 2+ acts as a donor dopant in KNN. A similar effect might be expected for doping with other alkali earth metals, such as Ca 2+ , but this was not observed in the present work or in literature on bulk KNN [63][64][65] .…”

“…Ca 2+ and Ti 4+ are both non-toxic, and therefore suitable for in vivo applications 61,62 . Ca 2+ doping is reported to have a softening effect on the ferroelectric properties of bulk KNN 63 , improve dielectric properties 64 and to increase the piezoelectric coefficient (d 33 or d 33 * ) compared to undoped KNN [63][64][65][66] . Enhanced ferroelectric performance has been reported for bulk KNN doped with 0.55, 1 and 5 mol% CaTiO3 [67][68][69][70][71] .…”

Ferroelectric and dielectric properties of Ca²⁺-doped and Ca²⁺–Ti⁴⁺co-doped K_0.5Na_0.5NbO₃thin films

“…The analysis of d 33 data highlights that the highest values can be achieved with 0.1-0.25 mol calcium doping, having the highest densities and room temperature ε r . Tang et al 46 reported that the remanent polarization P r becomes smaller for KNLNT-Ca samples than for KNLNT samples.…”

“…investigated [(K 0.43 Na 0.57 ) 0.94 Li 0.06 ][(Nb 0.94 Sb 0.06 ) 0.95 Ta 0.05 ]O 3 + x mol% Fe 2 O 3 (KNLNST + x Fe, x = 0–0.60) ceramics via conventional solid‐state sintering, proposing that Fe 3+ ions first occupy the A‐site at the low doping level and then at higher contents the B‐site and/or interstitials of the ABO 3 ‐type perovskite lattice 43 . Only a few results have been published on the effect of Ca 2+ doping on the dielectric properties of KNLNT ceramics 46 and KNN thin‐films 47 . We propose that alkali volatilization is most likely the major problem for making the KNN‐based material 48,49 an alternative to lead‐based piezoceramics.…”

Effect of iron acceptor doping and calcium donor doping in potassium sodium niobate‐based lead‐free piezoceramics