Conformal piezoelectric energy harvesting and storage from motions of the heart, lung, and diaphragm
Canan Dagdeviren,Byung Duk Yang,Yewang Su,Yewang Su,Phat L. Tran,Pauline Joe,Eric K. Anderson,Jing Xia,Jing Xia,Vijay A. Doraiswamy,Behrooz Dehdashti,Xue Feng,Bingwei Lu,Robert S. Poston,Zain Khalpey,Roozbeh Ghaffari,Yonggang Huang,Marvin J. Slepian,John A. Rogers +18 more
TLDR
Advanced materials and devices are reported that enable high-efficiency mechanical-to-electrical energy conversion from the natural contractile and relaxation motions of the heart, lung, and diaphragm, demonstrated in several different animal models, each of which has organs with sizes that approach human scales.Abstract:
Here, we report advanced materials and devices that enable high-efficiency mechanical-to-electrical energy conversion from the natural contractile and relaxation motions of the heart, lung, and diaphragm, demonstrated in several different animal models, each of which has organs with sizes that approach human scales. A cointegrated collection of such energy-harvesting elements with rectifiers and microbatteries provides an entire flexible system, capable of viable integration with the beating heart via medical sutures and operation with efficiencies of ∼2%. Additional experiments, computational models, and results in multilayer configurations capture the key behaviors, illuminate essential design aspects, and offer sufficient power outputs for operation of pacemakers, with or without battery assist.read more
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A review on heat and mechanical energy harvesting from human – Principles, prototypes and perspectives
TL;DR: In this article, the physical mechanisms, materials and devices involved in possible energy harvesting from human motion are discussed, and various proposed or demonstrated energy harvesting prototypes related to human motion is reviewed and discussed with respect to their working principles, device structures, implementations and performances.
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An antibacterial platform based on capacitive carbon-doped TiO2 nanotubes after direct or alternating current charging
Guomin Wang,Hongqing Feng,Liangsheng Hu,Weihong Jin,Qi Hao,Ang Gao,Ang Gao,Xiang Peng,Wan Li,Kwok Yin Wong,Huaiyu Wang,Huaiyu Wang,Zhou Li,Paul K. Chu +13 more
TL;DR: This study reports on a study into how the antibacterial properties of carbon-doped titania nanotubes are affected by capacitance after charging with direct and alternating currents.
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New developments in composites, copolymer technologies and processing techniques for flexible fluoropolymer piezoelectric generators for efficient energy harvesting
Nick A. Shepelin,Alexey M. Glushenkov,Vanessa C. Lussini,Phillip John South Melbourne Fox,Greg W. Dicinoski,Joseph G. Shapter,Amanda V. Ellis +6 more
TL;DR: In this article, a critical review of the processing of fluoropolymers towards the maximization of piezoelectric conversion parameters is presented, focusing on the correlation between synthetic routes, inclusion of further co-monomers, addition of additives and nanomaterials, as well as processing techniques and the optimized electricity generation in the resultant PEGs.
Journal ArticleDOI
A high performance P(VDF-TrFE) nanogenerator with self-connected and vertically integrated fibers by patterned EHD pulling
TL;DR: A patterned electrohydrodynamic (EHD) pulling technology was proposed to fabricate a new self-connected, piezoelectric fiber array vertically integrated P(VDF-TrFE) nanogenerator, with a molecular poling orientation fully aligned to the principal excitation for maximized conversion and a well-bridged electrode pair for efficient charge collection.
Journal ArticleDOI
A flexible and implantable piezoelectric generator harvesting energy from the pulsation of ascending aorta: in vitro and in vivo studies
Hao Zhang,Xiao-Sheng Zhang,Xiaoliang Cheng,Yang Liu,Mengdi Han,Xiang Xue,Shuaifei Wang,Fan Yang,Smitha A S,Haixia Zhang,Zhiyun Xu +10 more
TL;DR: In this article, a flexible and implantable piezoelectric generator (PG) was used to generate electric power from the ascending aorta of a porcine.
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