L
Laiming Jiang
Researcher at University of Southern California
Publications - 35
Citations - 853
Laiming Jiang is an academic researcher from University of Southern California. The author has contributed to research in topics: Ultrasonic sensor & Energy harvesting. The author has an hindex of 8, co-authored 34 publications receiving 284 citations. Previous affiliations of Laiming Jiang include Sichuan University.
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Journal ArticleDOI
Flexible piezoelectric ultrasonic energy harvester array for bio-implantable wireless generator.
Laiming Jiang,Laiming Jiang,Yang Yang,Ruimin Chen,Gengxi Lu,Runze Li,Di Li,Mark S. Humayun,K. Kirk Shung,Jianguo Zhu,Yong Chen,Qifa Zhou +11 more
TL;DR: The developed flexible PUEH device can be driven by the ultrasonic wave to produce continuous voltage and current outputs on both planar and curved surfaces, reaching output signals of more than 2 Vpp and 4 μA, respectively.
Journal ArticleDOI
Stretchable Nanolayered Thermoelectric Energy Harvester on Complex and Dynamic Surfaces
Yang Yang,Hongjie Hu,Zeyu Chen,Ziyu Wang,Laiming Jiang,Gengxi Lu,Xiangjia Li,Ruimin Chen,Jie Jin,Haochen Kang,Hengxi Chen,Shuang Lin,Siqi Xiao,Hanyu Zhao,Rui Xiong,Jing Shi,Qifa Zhou,Sheng Xu,Yong Chen +18 more
TL;DR: A stretchable TEG (S-TEG) (over 50% stretchability of the entire device) that is geometrically suitable for various complex and dynamic surfaces of heat sources and offers a potential energy solution for the wearable devices for health monitoring.
Journal ArticleDOI
3D Printing of Functional Magnetic Materials: From Design to Applications
Chengqian Zhang,Chengqian Zhang,Xiangjia Li,Laiming Jiang,Daofan Tang,Han Xu,Peng Zhao,Jianzhong Fu,Qifa Zhou,Yong Chen +9 more
Journal ArticleDOI
Ultrasound-Induced Wireless Energy Harvesting: From Materials Strategies to Functional Applications.
TL;DR: An overview of recent developments in UWEH technologies that use a variety of material strategies and system designs based on the piezoelectric and capacitive energy harvesting mechanisms is provided, including wireless power for bio-implantable devices, direct cell/tissue electrical stimulations, and wireless recording and communication in nervous systems.
Journal ArticleDOI
Ultrasound-Induced Wireless Energy Harvesting for Potential Retinal Electrical Stimulation Application
Laiming Jiang,Laiming Jiang,Yang Yang,Yang Yang,Ruimin Chen,Gengxi Lu,Runze Li,Jie Xing,K. Kirk Shung,Mark S. Humayun,Jianguo Zhu,Yong Chen,Qifa Zhou +12 more
TL;DR: In this article, a new electrical stimulation strategy is proposed using ultrasound-driven wireless energy harvesting technology to convert acoustic energy to electricity through the piezoelectric effect, and the design, fabrication, and performance of a millimeter-scale flexible ultrasound patch that utilizes an environment-friendly lead-free piezocomposite are described.