Ethylenediaminetetraacetic Acid (EDTA) Assisted Single Step Densification of Li<sub>2</sub>TiO<sub>3</sub>/PTFE Composites at Ultralow Sintering Temperature to Realize a High-Performance Ku-Band Antenna

Narayanaiyer, Santha; Mohanan, Jagadeesh; Nazeemabeevi, Jawahar I.; Subodh, G.

doi:10.1021/acsaelm.2c00688

Cited by 7 publications

(4 citation statements)

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“…The resonant frequencies of simulated and fabricated MPAs are 5.20 and 5.29 GHz, respectively. Basically, return loss indicates the power reflected from the antenna to the source, and it should be less than −10 dB for the entire acceptable frequency range. , Here, the simulated and fabricated antennas show return loss values of around −20.2 and −17.9 dB, respectively, which are good enough for their practical application. Another parameter that determines the suitability of the antenna for a specific application is its impedance bandwidth, which corresponds to the range of frequencies where the return loss is less than −10 dB.…”

Section: Resultsmentioning

confidence: 80%

“…35 Also, recently, Santha et al used EDTA as the sintering aid to densify the Li 2 TiO 3 -PTFE composites. 36 In the recent past, on account of the lower polarizability of F − (1.62 Å 3 ) than that of an O 2− ion (2.01 Å 3 ), researchers have more focused on fluoride-based systems to take advantage of CSP for promising microwave dielectric ceramics. Liu et al demonstrated the feasibility of the cold sintering technique followed by the annealing process on the densification of LiF ceramics.…”

Section: ■ Introductionmentioning

confidence: 99%

“…Funahashi et al applied a chelating complex for the densification of spinel-based ferrites . Also, recently, Santha et al used EDTA as the sintering aid to densify the Li 2 TiO 3 -PTFE composites …”

Section: Introductionmentioning

confidence: 99%

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Water and SnF₂ Assisted Ultralow-Temperature Sintering of Mechanically Tough Y₃Fe₅O₁₂ Composites for Magneto-Dielectric Antennas

Madhuri

Subodh

2023

ACS Appl. Electron. Mater.

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Recently, the cold sintering process (CSP) has gained worldwide recognition from the scientific community as a green and innovative fabrication technique due to the substantial reduction of processing energy, time, and cost. The present work reports the preparation, fabrication, and properties of (1 – x)Y3Fe5O12–xSnF2 (x = 0.2, 0.3, 0.4, 0.5 volume fraction) ceramic composites for the first time through the cold sintering process under 150 °C, by applying 300 MPa uniaxial pressure for 30 min. The evolved microstructures of the cold-sintered composites suggest enhanced densification with increasing SnF2 concentration. The evolution of the microstructure, consequent densification, and hardness of the composites can be due to the combined effect of water as a transient solvent and the relatively low melting point of SnF2. The main mechanism behind the densification in the SnF2-based system can be the liquid phase formation followed by pressure solution creep and plastic deformation. At the optimum additive concentration, the measured microhardness of the composite is around 4.7 GPa and its moisture absorption lies below 0.1%. The (1 – x)YIG–xSnF2 ceramics have relative permittivity (εr) in the range of 7.1–11.3 and loss tangent of the order of 10–2 at a frequency of 900 MHz. Further, the real part of permeability and the corresponding loss tangent lie below 2 and 10–1, respectively, at 900 MHz. Herein, a microstrip patch antenna (MPA) is designed, simulated, and fabricated using the 0.5YIG–0.5SnF2 composite, which shows excellent performance at 5.29 GHz with a return loss of −17.9 dB and an impedance bandwidth of 780 MHz. Hence, cold sintering using SnF2-based additives is considered a sustainable, energy-efficient, and cost-effective tool for the densification of magneto-dielectric materials.

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Section: Resultsmentioning

confidence: 80%

Section: ■ Introductionmentioning

confidence: 99%

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Water and SnF₂ Assisted Ultralow-Temperature Sintering of Mechanically Tough Y₃Fe₅O₁₂ Composites for Magneto-Dielectric Antennas

Madhuri

Subodh

2023

ACS Appl. Electron. Mater.

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“…In addition, Li 2 TiO 3 -based materials have shown promise in high-frequency resonant circuits. It has a dielectric constant (ε r ) of around 26 and can be sintered at relatively low temperatures, such as 900 • C [25]. Therefore, they are suitable for lowtemperature processing applications.…”

Section: 5mentioning

confidence: 99%

Investigating the effects of uniaxial pressure on the preparation of MgTiO₃–CaTiO₃ ceramic capacitors for MRI systems

Jebri,

Taleb Ali,

Bord Majek

2023

The Journal of Engineering

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Today's healthcare system relies on magnetic resonance imaging (MRI) for early diagnosis and treatment planning. For open MRI systems to achieve resolutions of about a hundred microns, a high voltage is required, as well as a specialized power supply. Negative–positive–zero (NP0) ceramic is selected for the fabrication of adjustable capacitors. Specifically, it stands for which is a classification based on the temperature coefficient of capacitance (TCC) of the ceramic material used in the capacitor. NP0 capacitors have a TCC of 0 ±30 ppm/°C, which means that their capacitance value does not change significantly with temperature and frequency. They are known for their stability and low losses, making them ideal for applications that require high accuracy and reliability, such as timing circuits for radio frequency (RF) applications. Here, MgTiO3–CaTiO3 ceramic is used to make an adjustable capacitor with desired properties for MRI systems. To enhance the dielectric properties of MgTiO3 ceramics, CaTiO3 was added in varying concentrations. After pressing and sintering, the resulting samples were tested using a vector network analyzer in the frequency range of 10–130 MHz. The adjustable capacitor fabricated using high co‐fired NP0 ceramic may have been used for MRI applications such as tuning circuits and matching networks, where precise capacitance values and low loss are critical. MRI systems with resonance frequencies of 128 MHz require trimmers with ceramic cores (VBreakdown = 3 kV @ 128 MHz, Cmin = 3 pF, CMax = 30 pF, and Cvariation step = 1.5 pF).

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Water-assisted densification and broadband dielectric response of cold-sintered CaCu3Ti4O12-SnF2 composites

Mohanan,

Narayanaiyer,

Nazeemabeevi

et al. 2023

Ceramics International

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Ethylenediaminetetraacetic Acid (EDTA) Assisted Single Step Densification of Li₂TiO₃/PTFE Composites at Ultralow Sintering Temperature to Realize a High-Performance Ku-Band Antenna

Cited by 7 publications

References 74 publications

Water and SnF₂ Assisted Ultralow-Temperature Sintering of Mechanically Tough Y₃Fe₅O₁₂ Composites for Magneto-Dielectric Antennas

Water and SnF₂ Assisted Ultralow-Temperature Sintering of Mechanically Tough Y₃Fe₅O₁₂ Composites for Magneto-Dielectric Antennas

Investigating the effects of uniaxial pressure on the preparation of MgTiO₃–CaTiO₃ ceramic capacitors for MRI systems

Water-assisted densification and broadband dielectric response of cold-sintered CaCu3Ti4O12-SnF2 composites

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Ethylenediaminetetraacetic Acid (EDTA) Assisted Single Step Densification of Li2TiO3/PTFE Composites at Ultralow Sintering Temperature to Realize a High-Performance Ku-Band Antenna

Cited by 7 publications

References 74 publications

Water and SnF2 Assisted Ultralow-Temperature Sintering of Mechanically Tough Y3Fe5O12 Composites for Magneto-Dielectric Antennas

Water and SnF2 Assisted Ultralow-Temperature Sintering of Mechanically Tough Y3Fe5O12 Composites for Magneto-Dielectric Antennas

Investigating the effects of uniaxial pressure on the preparation of MgTiO3–CaTiO3 ceramic capacitors for MRI systems

Water-assisted densification and broadband dielectric response of cold-sintered CaCu3Ti4O12-SnF2 composites

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Product

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About

Ethylenediaminetetraacetic Acid (EDTA) Assisted Single Step Densification of Li₂TiO₃/PTFE Composites at Ultralow Sintering Temperature to Realize a High-Performance Ku-Band Antenna

Water and SnF₂ Assisted Ultralow-Temperature Sintering of Mechanically Tough Y₃Fe₅O₁₂ Composites for Magneto-Dielectric Antennas

Water and SnF₂ Assisted Ultralow-Temperature Sintering of Mechanically Tough Y₃Fe₅O₁₂ Composites for Magneto-Dielectric Antennas

Investigating the effects of uniaxial pressure on the preparation of MgTiO₃–CaTiO₃ ceramic capacitors for MRI systems