Add to ORKGAbstract In this paper, BiZn₂VO₆ doped with sintering aids of B₂O₃ and Li₂CO₃ is investigated in order to broaden the options for ultralow temperature cofired ceramics (ULTCC). The sintering behavior, microstructure, and microwave dielectric properties are studied. In combination with 1 wt% B₂O₃ and 5 wt% Li₂CO₃ dopants, the sintering temperature of the BiZn₂VO₆ ceramics was reduced from 780°C to 600°C. The co‐doped BiZn₂VO₆ ceramics exhibited a low relative permittivity (εr) of 8.9 and a quality factor (Q × f) of 13 000 GHz at a microwave‐range frequency of 9 GHz. The temperature coefficient of resonant frequency (τf) was measured to be −97 ppm/°C. The average linear coefficient of thermal expansion (CTE) was 7.2 ppm/°C. With the low sint...
Ceramic samples with low sintering temperature were prepared by solid state reaction from the respec...
Dense Li6B4O9microwave dielectric ceramics were synthesized at low temperature via solid-state react...
Abstract The article presents the very first materials to the Ultra-Low Temperature Co-fired Cerami...
Abstract A new ultralow dielectric loss cofired CaMgGeO₄ dielectric material with olivine structure...
ABSTRACT: A new ultralow dielectric loss cofired CaMg- GeO4 dielectric material with olivine struct...
A temperature-stable, ultra-high permittivity dielectric ceramic, based on CTLNT, has been successfu...
Bi 2 (Li 0.5 Ta 1.5 )O 7 + xBi 2 O 3 (x = 0, 0.01 and 0.02) ceramics were prepared using a solid sta...
High-K materials are needed for many microwave applications. In this paper microwave properties of B...
Abstract A low‐permittivity dielectric ceramic Li₂GeO₃ was prepared by the solid‐state reaction rou...
Dense Li<sub>6</sub>B<sub>4</sub>O<sub>9</sub> microwave dielectric ceramics were synthesized at low...
AbstractMicrowave dielectric materials are used more and more widely in resonators, filters, integra...
The feasibility of novel LiCo1-xAxVO4 (A = Mg, Zn; x = 0–0.09) microwave dielectrics for ULTCC (ultr...
Abstract A cubic rock salt structured ceramic, Li₇Ti₃O₉F, was fabricated via the conventional solid-...
Low sintering temperature, ultra-low loss microwave ceramics are envisaged as future dielectrics for...
High-speed signal propagation systems require dielectric ceramics with low relative permittivity (εr...
Ceramic samples with low sintering temperature were prepared by solid state reaction from the respec...
Dense Li6B4O9microwave dielectric ceramics were synthesized at low temperature via solid-state react...
Abstract The article presents the very first materials to the Ultra-Low Temperature Co-fired Cerami...
Abstract A new ultralow dielectric loss cofired CaMgGeO₄ dielectric material with olivine structure...
ABSTRACT: A new ultralow dielectric loss cofired CaMg- GeO4 dielectric material with olivine struct...
A temperature-stable, ultra-high permittivity dielectric ceramic, based on CTLNT, has been successfu...
Bi 2 (Li 0.5 Ta 1.5 )O 7 + xBi 2 O 3 (x = 0, 0.01 and 0.02) ceramics were prepared using a solid sta...
High-K materials are needed for many microwave applications. In this paper microwave properties of B...
Abstract A low‐permittivity dielectric ceramic Li₂GeO₃ was prepared by the solid‐state reaction rou...
Dense Li<sub>6</sub>B<sub>4</sub>O<sub>9</sub> microwave dielectric ceramics were synthesized at low...
AbstractMicrowave dielectric materials are used more and more widely in resonators, filters, integra...
The feasibility of novel LiCo1-xAxVO4 (A = Mg, Zn; x = 0–0.09) microwave dielectrics for ULTCC (ultr...
Abstract A cubic rock salt structured ceramic, Li₇Ti₃O₉F, was fabricated via the conventional solid-...
Low sintering temperature, ultra-low loss microwave ceramics are envisaged as future dielectrics for...
High-speed signal propagation systems require dielectric ceramics with low relative permittivity (εr...
Ceramic samples with low sintering temperature were prepared by solid state reaction from the respec...
Dense Li6B4O9microwave dielectric ceramics were synthesized at low temperature via solid-state react...
Abstract The article presents the very first materials to the Ultra-Low Temperature Co-fired Cerami...