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Bo Woon Soon
Researcher at National University of Singapore
Publications - 34
Citations - 384
Bo Woon Soon is an academic researcher from National University of Singapore. The author has contributed to research in topics: Resonator & Piezoelectricity. The author has an hindex of 10, co-authored 24 publications receiving 322 citations. Previous affiliations of Bo Woon Soon include Agency for Science, Technology and Research.
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Feasibility study of a 3D vibration-driven electromagnetic MEMS energy harvester with multiple vibration modes
TL;DR: In this article, a novel electromagnetic energy harvester (EH) with multiple vibration modes has been developed and characterized using three-dimensional (3D) excitation at different frequencies.
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Methods for improving electromechanical coupling coefficient in two dimensional electric field excited AlN Lamb wave resonators
Chengliang Sun,Bo Woon Soon,Yao Zhu,Nan Wang,Samuel Pei Hao Loke,Xiaojing Mu,Jifang Tao,Alex Yuandong Gu +7 more
TL;DR: An AlN piezoelectric Lamb-wave resonator, which is excited by two dimensional electric field, is reported in this paper, where rhombus-shape electrodes are arranged on AlN thin film in a checkered formation.
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Quality Factor Dependence on the Inactive Regions in AlN Contour-Mode Resonators
TL;DR: In this paper, the authors investigated the dependence of the quality factor of AlN contour mode resonators on the characteristics of the inactive regions located between the main resonator body (active region) and the stress-free surfaces placed beside the anchors.
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Experimental Investigation of a Cavity-Mode Resonator Using a Micromachined Two-Dimensional Silicon Phononic Crystal in a Square Lattice
TL;DR: In this paper, a 2D silicon phononic crystal (PnC) slab of a square array of cylindrical air holes in a 10-μm-thick freestanding silicon plate with line defects is characterized as a cavity-mode PnC resonator.
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All metal nanoelectromechanical switch working at 300 °C for rugged electronics applications
You Qian,You Qian,Bo Woon Soon,Bo Woon Soon,Pushpapraj Singh,Humberto Campanella,Chengkuo Lee +6 more
TL;DR: An all metal based electrostatic nanoelectromechanical switch has been fabricated using a one mask process and high temperature cycling behavior is demonstrated in a vacuum chamber at 300 °C for more than 28 hours.