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Design and Fabrication of a Novel Dual-Frequency Confocal Ultrasound Transducer for Microvessels Super-Harmonic Imaging

Xinqi Deng, Tingnian Xu, Guoming Huang, Qinghao Li, Liyang Luo, Yue Zhao, Zhengjie Wu, Jun Ouyang, Xiaofei Yang, Mingxing Xie, Benpeng Zhu

2020IEEE Transactions on Ultrasonics Ferroelectrics and Frequency Control51 citationsDOI

Abstract

Recently, super-harmonic ultrasound imaging technology has caused much attention due to its capability of distinguishing microvessels from the tissues surrounding them. However, the fabrication of a dual-frequency confocal transducer is still a challenge. In this work, 270- [Formula: see text] PMN-PT single crystal 1-3 composite and 28- [Formula: see text] PVDF thick film, acting as transmission layer and receiving layer, respectively, are integrated in a novel co-focusing structure. To realize delicate wave propagation control, microwave transmission line theory is introduced to design such structure. Two acoustic filter layers, 13- [Formula: see text] copper layer and 39- [Formula: see text] Epoxy 301 layer, are indispensable and should be added between two piezoelectric layers. Therefore, an acoustic issue can be overcome via an electrical method and the successful achievement of a dual-frequency (5 MHz/30 MHz) ultrasound transducer with a confocal distance of 8 mm can be realized. The super-harmonic ultrasound imaging experiment is conducted using this kind of device. The 3-D image of 110- [Formula: see text]-diameter phantom tube injected with microbubbles can be obtained. These promising results demonstrate that this novel dual-frequency (5 MHz/30 MHz) confocal ultrasound transducer is potentially usable for microvascular medical imaging application in the future.

Topics & Concepts

TransducerMaterials scienceUltrasonic sensorMicrobubblesAcousticsImaging phantomUltrasoundHarmonicConfocalFabricationOpticsBiomedical engineeringPhysicsEngineeringAlternative medicinePathologyMedicinePhotoacoustic and Ultrasonic ImagingUltrasound Imaging and ElastographyUltrasound and Hyperthermia Applications
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