High-Quality-Factor AlON Transparent Ceramics for 5 GHz Wi-Fi Aesthetically Decorative Antennas

Chao Du; Di Zhou; Shu Zhao Hao; He Tuo Chen; Jian Zhang; Shi Kuan Sun; Tao Zhou; Ming Zhao Dang; Shao Fei Wang; Hai Wen Liu; Long Li; Zhuo Xu

doi:10.1021/acsami.1c12223

High-Quality-Factor AlON Transparent Ceramics for 5 GHz Wi-Fi Aesthetically Decorative Antennas

Chao Du
, Di Zhou
, Shu Zhao Hao
, He Tuo Chen
, Jian Zhang
, Shi Kuan Sun
, Tao Zhou
, Ming Zhao Dang
, Shao Fei Wang
, Hai Wen Liu
, Long Li
, Zhuo Xu

Research output: Contribution to journal › Article › peer-review

35 Scopus citations

Abstract

Transparent material has been widely used in product design and has seen a large increase in its use. In this paper, a kind of aesthetically decorative 5 GHz Wi-Fi dielectric resonator antenna (DRA) of aluminum oxynitride (AlON) transparent ceramic has been designed. High-quality-factor AlON transparent dielectric ceramics were fabricated by presintering at 1780 °C and further cold isostatic pressing (CIP) under a 200 MPa argon atmosphere. For a 9.0 mm thick specimen, the in-line light transmittance reached 83%. Optimum dielectric constant (ε_r= 9.32), quality factor 960) and temperature coefficient (TCF = −51.7 ppm/°C) was achieved in the AlON transparent ceramic by cold isostatic pressing. As a result, the proposed aesthetically decorative DRA can achieve an impedance bandwidth of 32% (4.48-6.19 GHz), a high radiation efficiency of 85%, and a low cross-polarization discrimination (XPD) of −30 dB. To achieve a broad bandwidth, the proposed antenna was excited in its dominant TE₁₁₁^xmode and higher-order TE₁₁₃^xmode. The proposed antenna is thus an excellent candidate for an indoor decoration Wi-Fi antenna.

Original language	English
Pages (from-to)	46866-46874
Number of pages	9
Journal	ACS Applied Materials and Interfaces
Volume	13
Issue number	39
DOIs	https://doi.org/10.1021/acsami.1c12223
State	Published - 6 Oct 2021

Keywords

aesthetically decorative
dielectric resonator antenna
indoor Wi-Fi
microwave dielectric ceramics
transparent ceramics

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10.1021/acsami.1c12223

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title = "High-Quality-Factor AlON Transparent Ceramics for 5 GHz Wi-Fi Aesthetically Decorative Antennas",

abstract = "Transparent material has been widely used in product design and has seen a large increase in its use. In this paper, a kind of aesthetically decorative 5 GHz Wi-Fi dielectric resonator antenna (DRA) of aluminum oxynitride (AlON) transparent ceramic has been designed. High-quality-factor AlON transparent dielectric ceramics were fabricated by presintering at 1780 °C and further cold isostatic pressing (CIP) under a 200 MPa argon atmosphere. For a 9.0 mm thick specimen, the in-line light transmittance reached 83\%. Optimum dielectric constant (εr= 9.32), quality factor 960) and temperature coefficient (TCF = −51.7 ppm/°C) was achieved in the AlON transparent ceramic by cold isostatic pressing. As a result, the proposed aesthetically decorative DRA can achieve an impedance bandwidth of 32\% (4.48-6.19 GHz), a high radiation efficiency of 85\%, and a low cross-polarization discrimination (XPD) of −30 dB. To achieve a broad bandwidth, the proposed antenna was excited in its dominant TE111xmode and higher-order TE113xmode. The proposed antenna is thus an excellent candidate for an indoor decoration Wi-Fi antenna.",

keywords = "aesthetically decorative, dielectric resonator antenna, indoor Wi-Fi, microwave dielectric ceramics, transparent ceramics",

author = "Chao Du and Di Zhou and Hao, \{Shu Zhao\} and Chen, \{He Tuo\} and Jian Zhang and Sun, \{Shi Kuan\} and Tao Zhou and Dang, \{Ming Zhao\} and Wang, \{Shao Fei\} and Liu, \{Hai Wen\} and Long Li and Zhuo Xu",

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year = "2021",

month = oct,

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doi = "10.1021/acsami.1c12223",

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AU - Du, Chao

AU - Zhou, Di

AU - Hao, Shu Zhao

AU - Chen, He Tuo

AU - Zhang, Jian

AU - Sun, Shi Kuan

AU - Zhou, Tao

AU - Dang, Ming Zhao

AU - Wang, Shao Fei

AU - Liu, Hai Wen

AU - Li, Long

AU - Xu, Zhuo

PY - 2021/10/6

Y1 - 2021/10/6

N2 - Transparent material has been widely used in product design and has seen a large increase in its use. In this paper, a kind of aesthetically decorative 5 GHz Wi-Fi dielectric resonator antenna (DRA) of aluminum oxynitride (AlON) transparent ceramic has been designed. High-quality-factor AlON transparent dielectric ceramics were fabricated by presintering at 1780 °C and further cold isostatic pressing (CIP) under a 200 MPa argon atmosphere. For a 9.0 mm thick specimen, the in-line light transmittance reached 83%. Optimum dielectric constant (εr= 9.32), quality factor 960) and temperature coefficient (TCF = −51.7 ppm/°C) was achieved in the AlON transparent ceramic by cold isostatic pressing. As a result, the proposed aesthetically decorative DRA can achieve an impedance bandwidth of 32% (4.48-6.19 GHz), a high radiation efficiency of 85%, and a low cross-polarization discrimination (XPD) of −30 dB. To achieve a broad bandwidth, the proposed antenna was excited in its dominant TE111xmode and higher-order TE113xmode. The proposed antenna is thus an excellent candidate for an indoor decoration Wi-Fi antenna.

AB - Transparent material has been widely used in product design and has seen a large increase in its use. In this paper, a kind of aesthetically decorative 5 GHz Wi-Fi dielectric resonator antenna (DRA) of aluminum oxynitride (AlON) transparent ceramic has been designed. High-quality-factor AlON transparent dielectric ceramics were fabricated by presintering at 1780 °C and further cold isostatic pressing (CIP) under a 200 MPa argon atmosphere. For a 9.0 mm thick specimen, the in-line light transmittance reached 83%. Optimum dielectric constant (εr= 9.32), quality factor 960) and temperature coefficient (TCF = −51.7 ppm/°C) was achieved in the AlON transparent ceramic by cold isostatic pressing. As a result, the proposed aesthetically decorative DRA can achieve an impedance bandwidth of 32% (4.48-6.19 GHz), a high radiation efficiency of 85%, and a low cross-polarization discrimination (XPD) of −30 dB. To achieve a broad bandwidth, the proposed antenna was excited in its dominant TE111xmode and higher-order TE113xmode. The proposed antenna is thus an excellent candidate for an indoor decoration Wi-Fi antenna.

KW - aesthetically decorative

KW - dielectric resonator antenna

KW - indoor Wi-Fi

KW - microwave dielectric ceramics

KW - transparent ceramics

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DO - 10.1021/acsami.1c12223

M3 - 文章

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JO - ACS Applied Materials and Interfaces

JF - ACS Applied Materials and Interfaces

IS - 39

ER -

High-Quality-Factor AlON Transparent Ceramics for 5 GHz Wi-Fi Aesthetically Decorative Antennas

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