Jiyuan Zhu scite author profile

Jiyuan Zhu

2Publications

77Citation Statements Received

92Citation Statements Given

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114

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Affiliations

Fudan University, Beijing Institute of Nanoenergy and Nanosystems, Chinese Academy of Sciences

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Strain-controlled power devices as inspired by human reflex

Zhang

Zhou

et al. 2020

Nat Commun

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Bioinspired electronics are rapidly promoting advances in artificial intelligence. Emerging AI applications, e.g., autopilot and robotics, increasingly spur the development of power devices with new forms. Here, we present a strain-controlled power device that can directly modulate the output power responses to external strain at a rapid speed, as inspired by human reflex. By using the cantilever-structured AlGaN/AlN/GaN-based high electron mobility transistor, the device can control significant output power modulation (2.30-2.72 × 10 3 W cm −2) with weak mechanical stimuli (0-16 mN) at a gate bias of 1 V. We further demonstrate the acceleration-feedback-controlled power application, and prove that the output power can be effectively adjusted at real-time in response to acceleration changes, i.e., ▵P of 72.78-132.89 W cm −2 at an acceleration of 1-5 G at a supply voltage of 15 V. Looking forward, the device will have great significance in a wide range of AI applications, including autopilot, robotics, and human-machine interfaces.

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Piezotronic Effect Modulated Flexible AlGaN/GaN High-Electron-Mobility Transistors

et al. 2019

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Flexible electronic technology has attracted great attention due to its wide range of potential applications in the fields of healthcare, robotics, and artificial intelligence, etc. In this work, we have successfully fabricated flexible AlGaN/GaN high-electron-mobility transistors (HEMTs) arrays through a low-damage and wafer-scale substrate transfer technology from a rigid Si substrate. The flexible AlGaN/GaN HEMTs have excellent electrical performances with the I d,max achieving 290 mA/mm at V gs = +2 V and the g m,max reaching to 40 mS/mm. The piezotronic effect provides a different freedom to optimize device performances, and flexible HEMTs can endure the larger mechanical distortions. Based on the piezotronic effect, we applied an external stress to significantly modulate the electrical performances of flexible HEMTs. The piezotronic effect modulated flexible AlGaN/GaN HEMTs exhibit great potential in human-machine interface, intelligent microinductor systems, and active sensors, etc, and introduce an opportunity to sensing or feedback external mechanical stimuli and so on.

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Jiyuan Zhu

Strain-controlled power devices as inspired by human reflex

Piezotronic Effect Modulated Flexible AlGaN/GaN High-Electron-Mobility Transistors

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