2021
DOI: 10.1111/jace.17606
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Interdependence of piezoelectric coefficient and film thickness in LiTaO3 cantilevers

Abstract: Electromechanical energy demands homogenous thick films of piezoceramics with sufficiently large piezoelectric constant and reproducible performance. Single-phase LiTaO 3 films deposited by sol-gel processing have been fabricated as cantilevers to investigate the interdependence of dielectric and piezoelectric properties as a function of film thickness. Phase pure LiTaO 3 films with varying thickness in the range of 2.07-4.37 µm on stainless steel substrates were obtained after calcination of samples at Accept… Show more

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Cited by 9 publications
(5 citation statements)
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“…The literature reports LiNbO 3 /LiTaO 3 films on the bottom electrodes containing heterostructures or metal substrates are rare. Recently, 2-4 µm thick LiTaO 3 films on stainless steel substrates were fabricated by means of sol-gel method and post thermal treatment for the vibrational EH applications and the reported generated PD by this heterostructure was 4-20 nW m −3 at acceleration of 1.5 g [163]. The c-axis textured films can be grown on the (111) Pt film electrodes.…”
Section: Linbo 3 and Litaomentioning
confidence: 99%
“…The literature reports LiNbO 3 /LiTaO 3 films on the bottom electrodes containing heterostructures or metal substrates are rare. Recently, 2-4 µm thick LiTaO 3 films on stainless steel substrates were fabricated by means of sol-gel method and post thermal treatment for the vibrational EH applications and the reported generated PD by this heterostructure was 4-20 nW m −3 at acceleration of 1.5 g [163]. The c-axis textured films can be grown on the (111) Pt film electrodes.…”
Section: Linbo 3 and Litaomentioning
confidence: 99%
“…Other lead-free piezoceramics worthy of mention are Ba 0.7 Sr 0.3 TiO 3 , 43 molybdenum disulfide (MoS 2 ), 44 molybdenum diselenide (MoSe 2 ), 45 and lithium tantalate (LiTaO 3 ). 46…”
Section: Piezoelectric Materialsmentioning
confidence: 99%
“…So far, flexible piezoelectric energy harvesters have been extensively reported to be fabricated from: (i) inorganic piezoelectric materials, including semiconducting nanowires (e.g., ZnO [ 3 , 20 ], GaN [ 21 , 22 ], CdS [ 23 ], InN [ 24 ], and ZnS [ 25 ]), lead-based (e.g., lead zirconate titanate (PZT) [ 26 ], PbZrO 3 [ 27 ], and PbTiO3 [ 28 ]) and lead-free ceramics thin films (e.g., BaTiO3 [ 29 ], LiNbO3 [ 30 ], (K,Na)NbO 3 (KNN) [ 31 ], and LiTaO 3 [ 32 ]); (ii) organic piezoelectric materials including synthetic polymers (e.g., poly(vinylidene fluoride) (PVDF) [ 33 , 34 ], poly(vinylidene fluoride-co-tri-fluoroethylene) (PVDF–TrFE) [ 35 ], nylon-11 (PA-11) [ 36 ], polylactic acid (PLA) [ 37 ], poly( l -lactide) (PLLA) [ 38 ], and poly( d -lactide) (PDLA) [ 39 ]), natural organics (e.g., amino acid [ 40 ], peptide [ 41 ], protein [ 42 ], and virus [ 43 , 44 ]), and molecular ferroelectrics [ 45 ]; and (iii) piezoelectric composites composing of conductive fillers (e.g., graphene [ 46 ], carbon nanotubes [ 47 ], and silver [ 48 ]), or non-conductive fillers (e.g., PZT [ 49 ], BaTiO 3 [ 50 ], KNN [ 51 ], ZnO [ 52 ], MgO [ 47 ], and TiO 2 [ 47 ]), and matrix (e.g., PVDF [ 49 ], P(VDF-TrFE) [ 47 ], hydroxyapatite [ 53 ], PDMS [ 51 ], and polyvinylidene fluoride hexafluoropropylene (PVDF-HFP) [ 46 ]). Numerous studies have been dedicated to significantly improve the output power of flexible piezoelectric devices via materials engineering (e.g., texture/crystallinity enhancement [ [54] , [55] , [56] , [57] ], dipole/polarisation alignment [ 41 , 58 ], doping engineering [ [59] …”
Section: Introductionmentioning
confidence: 99%