Low‐Profile Planar Antenna Sensor Based on Ti3C2Tx MXene Membrane for VOC and Humidity Monitoring

Kazemi, Kasra Khorsand; Hu, Shujun; Niksan, Omid; Adhikari, Kishor Kumar; Tanguy, Nicolas R.; Li, Shibo; Arjmand, Mohammad; Zarifi, Mohammad H.

doi:10.1002/admi.202102411

Cited by 37 publications

(11 citation statements)

References 51 publications

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“…The proposed structure in this work is mainly focused on the characterization of solid samples for uniformity check. However, with some modifications, it can also be implemented for liquid 23,24 or gas 25,26 sensing applications. For liquid sensing, some special arrangement is to be made for the sample placement at an appropriate sensing region.…”

Section: Design Of Radially Slotted Planar Sensormentioning

confidence: 99%

Design of slot radiating RF planar sensor for homogeneity check of dielectric discontinuity

Banerjee

Akhtar

2023

Micro & Optical Tech Letters

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In this paper, a 2.8-GHz RF planar sensor with radiating slots is proposed for effective checking of discontinuity in homogeneous dielectric samples. The slots etched in the ground plane reduce the effective area for sample placement, which increases in the case of a conventional ring at the desired frequency. Several forms of discontinuity are analyzed and measured with the help of varying geometrical configurations of Teflon, wood, and polyethylene samples with varying permittivity. It is observed that due to the uniform distribution of fields among all the radiating slots any sort of configurational discontinuity is detected by the sensor in terms of the shift in resonant frequency and S 21 transmission notch. The simulations are carried out using CST-MWS and the equivalent model is developed using ADS. The numerical analysis is carried out using Origin software and the measurement is carried out using Taconic TLY-5 substrate by photolithographic etching.

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Section: Design Of Radially Slotted Planar Sensormentioning

confidence: 99%

Design of slot radiating RF planar sensor for homogeneity check of dielectric discontinuity

Banerjee

Akhtar

2023

Micro & Optical Tech Letters

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“…The key materials are expected to be flexible with high electrical conductivity and tolerable mechanical deformation 4 . In comparison with conventionally used metals 5 , carbon-based nanomaterials 6 , and polymers 7 , two-dimensional titanium carbide (Ti 3 C 2 ) is becoming nominated star materials for RF antennas due to its intrinsic high electrical conductivity (10,000~20,000 S cm −1 ), good skin depth (2.4 GHz, 10 μm), excellent mechanical strength and easy processibility 8 – 11 . For example, in 2016, Gogotsi et al first explored the potential applications of Ti 3 C 2 nanomaterials in the flexible dipole antennas in the WiFi frequency band (2.4 GHz) 8 .…”

Section: Introductionmentioning

confidence: 99%

2D Titanium carbide printed flexible ultrawideband monopole antenna for wireless communications

et al. 2023

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Flexible titanium carbide (Ti3C2) antenna offers a breakthrough in the penetration of information communications for the spread of Internet of Things (IoT) applications. Current configurations are constrained to multi-layer complicated designs due to the limited conformal integration of the dielectric substrate and additive-free Ti3C2 inks. Here, we report the flexible ultrawideband Ti3C2 monopole antenna by combining strategies of interfacial modification and advanced extrusion printing technology. The polydopamine, as molecular glue nano-binder, contributes the tight adhesion interactions between Ti3C2 film and commercial circuit boards for high spatial uniformity and mechanical flexibility. The bandwidth and center frequency of Ti3C2 antenna can be well maintained and the gain differences fluctuate within ±0.2 dBi at the low frequency range after the bent antenna returns to the flat state, which conquers the traditional inelastic Cu antenna. It also achieves the demo instance for the fluent and stable real-time wireless transmission in bending states.

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“…[64,65] In a recent study, MXene membrane-based antennas have also been used to detect VOCs, for example, acetone, Isopropyl alcohol (IPA), ethanol, and methanol, in the parts per thousand range. [66] Despite the few implementations of MXene-based microwave structures, no prior study has investigated the performance of the MXene film microwave resonators with different flake sizes and studied the effect of flake size for operation in cyclic humidity. This work presents a comprehensive investigation on the incorporation of MXene films as microwave resonators, both in active and passive implementation, and evaluates resonant performance in cyclic relative humidity conditions.…”

Section: Introductionmentioning

confidence: 99%

MXene Free Standing Films: Unlocking the Impact of Flake Sizes in Microwave Resonant Structures in Humid Environments

Niksan

Wyatt

Kazemi

et al. 2023

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Microwave communication devices necessitate elements with high electrical conductivity, a property which was traditionally found in metals (e.g., copper). However, in applications such as satellite communications, metals prevent the payload from achieving lightweight and flexible characteristics. Here, we demonstrate the development of MXene film microwave resonators, leveraging MXene's high electrical conductivity and unique mechanical properties. To investigate resonant performance in humid conditions and study the effects of MXene's processing and treatment, MXene films with different flake sizes are prepared and exposed to cyclic humidity. For the large‐ and small‐flake Ti3C2 MXene films in cyclic humidity, the large‐flake film demonstrates higher electrical conductivity, higher resonance quality factor (150 and 35 as unloaded, and loaded), and less fluctuation of performance (≈1.7% total shift in resonance frequency). Further, by implementing MXene films of two different diameters, the correlation between film size and resonant frequency is demonstrated. By introducing an active resonant configuration, the effect of MXene degradation and microwave losses can be compensated. This active feedback loop demonstrates a ≈300 times increase in the quality factor of MXene resonators. As a building block for terrestrial and satellite communication modules, MXene resonators potentiate the replacement of metals in achieving unique electrical and mechanical properties.

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Low‐Profile Planar Antenna Sensor Based on Ti₃C₂T_x MXene Membrane for VOC and Humidity Monitoring

Cited by 37 publications

References 51 publications

Design of slot radiating RF planar sensor for homogeneity check of dielectric discontinuity

Design of slot radiating RF planar sensor for homogeneity check of dielectric discontinuity

2D Titanium carbide printed flexible ultrawideband monopole antenna for wireless communications

MXene Free Standing Films: Unlocking the Impact of Flake Sizes in Microwave Resonant Structures in Humid Environments

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