Basic thermophysical parameters of langasite (La3Ga5SiO14), langatate (La3Ta0.5Ga5.5O14), and catangasite (Ca3TaGa3Si2O14) single crystals in a temperature range of 25 to 1000°C

“…Besides this, the electrical resistivity of Mo (5.5 μΩ·cm) [ 19 ] is lower than that of Pt (10.8 μΩ·cm) [ 19 ]. Thermal-stress-induced damages can be reduced because of the lower coefficient of thermal expansion (CTE) of Mo (4.8 × 10 −6 at room temperature) [ 19 ], which is close to that of the applied substrate (3.3 × 10 −6 at room temperature of Ca 3 TaGa 3 Si 2 O 14 (CTGS) substrate [ 20 ]), as compared to the much higher CTE of Pt (8.8 × 10 −6 at room temperature) [ 19 ]. In addition to the exceptional physical properties of Mo, mechanical properties, such as high strength and creep resistance, are notable advantages for their use as IDT materials for SAW temperature sensors [ 21 ].…”

Stress and Microstructure Evolution in Mo Thin Films without or with Cover Layers during Thermal-Cycling

“…Besides this, the electrical resistivity of Mo (5.5 μΩ·cm) [ 19 ] is lower than that of Pt (10.8 μΩ·cm) [ 19 ]. Thermal-stress-induced damages can be reduced because of the lower coefficient of thermal expansion (CTE) of Mo (4.8 × 10 −6 at room temperature) [ 19 ], which is close to that of the applied substrate (3.3 × 10 −6 at room temperature of Ca 3 TaGa 3 Si 2 O 14 (CTGS) substrate [ 20 ]), as compared to the much higher CTE of Pt (8.8 × 10 −6 at room temperature) [ 19 ]. In addition to the exceptional physical properties of Mo, mechanical properties, such as high strength and creep resistance, are notable advantages for their use as IDT materials for SAW temperature sensors [ 21 ].…”

Stress and Microstructure Evolution in Mo Thin Films without or with Cover Layers during Thermal-Cycling

“…As distinct from the studies of optical, mechanical and thermal properties [7,13,[16][17][18][19][20][21], so far there is insufficient data about the electrical conductivity and anisotropy mechanism for langasite crystals. Electrical conductivity of lanthanum gallium silicate is low and its value limits the operation reliability of piezoelectric element in different devices.…”

Electrical conductivity and structural conditionality of ion transfer in langasite La-=SUB=-3-=/SUB=-Ga-=SUB=-5-=/SUB=-SiO-=SUB=-14-=/SUB=-:Mn

“…Another high-temperature stable piezoelectric substrate of the same LGS family is Ca 3 TaGa 3 Si 2 O 14 (CTGS) [19,20,21]. This material has better piezoelectric properties, such as higher effective piezoelectric coefficient at high temperature.…”

“…This material has better piezoelectric properties, such as higher effective piezoelectric coefficient at high temperature. The crystals have better quality due to the lower Ga content, higher electrical resistivity, higher mechanical strength and a lower thermal expansion anisotropy as compared to langasite [20,21,22,23]. This relatively newer substrate material is lesser known and thin films on it are not extensively studied yet.…”

“…The choice of refractory metal W, over the commonly used inert Pt, is based on it having a high melting point (3422 °C) which would lead to minimal creep-related damaging effects (the activation energy for self-diffusion at 1000 °C for W is ~ 6 eV while for Pt is ~ 3 eV [26]), its lower electrical resistivity (5.49 μΩ ·cm) as compared to Pt (10.6 μΩ·cm), closer CTE (4.5 × 10 −6 K) to LGS (a 11 = 5.63 × 10 −6 K) and CTGS (a 11 = 3.3 × 10 −6 K) [20] than for Pt (8.8 × 10 −6 K). In addition, W has exceptional thermal shock resistance due to its low CTE combined with its high thermal conductivity (174 W·m −1 ·K −1 ) which for Pt is much lower (72 W·m −1 ·K −1 ) [27].…”

Tungsten as a Chemically-Stable Electrode Material on Ga-Containing Piezoelectric Substrates Langasite and Catangasite for High-Temperature SAW Devices