Advanced Ultrasound Energy Transfer Technologies using Metamaterial Structures

Authors
Imani, Iman M.Kim, Hyun SooShin, JoonchulLee, Dong-GyuPark, JiwonVaidya, AnishKim, ChowonBaik, Jeong MinZhang, Yu ShrikeKang, HeeminHur, SunghoonSong, Hyun-Cheol
Issue Date
2024-08
Publisher
Wiley-VCH Verlag
Citation
Advanced Science, v.11, no.31
Abstract
Wireless energy transfer (WET) based on ultrasound-driven generators with enormous beneficial functions, is technologically in progress by the valuation of ultrasonic metamaterials (UMMs) in science and engineering domains. Indeed, novel metamaterial structures can develop the efficiency of mechanical and physical features of ultrasound energy receivers (US-ETs), including ultrasound-driven piezoelectric and triboelectric nanogenerators (US-PENGs and US-TENGs) for advantageous applications. This review article first summarizes the fundamentals, classification, and design engineering of UMMs after introducing ultrasound energy for WET technology. In addition to addressing using UMMs, the topical progress of innovative UMMs in US-ETs is conceptually presented. Moreover, the advanced approaches of metamaterials are reported in the categorized applications of US-PENGs and US-TENGs. Finally, some current perspectives and encounters of UMMs in US-ETs are offered. With this objective in mind, this review explores the potential revolution of reliable integrated energy transfer systems through the transformation of metamaterials into ultrasound-driven active mediums for generators. With the quick growth of ultrasound energy transfer technology based on triboelectric and piezoelectric nanogenerators (TENGs and PENGs), the recent progress in achieving efficient energy harvesting is presented, with a review of design strategies through understanding the influence and significance of ultrasonic metamaterials concept in ultrasound-driven TENG and PENG devices for current applications. image
Keywords
POWER TRANSFER; MEDICAL DEVICES; ACOUSTIC METAMATERIALS; HARVESTER; DESIGN; SYSTEM; DRIVEN; WAVE; NANOGENERATORS; OPTIMIZATION; metamaterials; nanogenerators; piezoelectric; triboelectric; ultrasound; wireless energy transfers
URI
https://pubs.kist.re.kr/handle/201004/150134
DOI
10.1002/advs.202401494
Appears in Collections:
KIST Article > 2024
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