Mao-Qugn Wei scite author profile

Mao-Qugn Wei

5Publications

4Citation Statements Received

8Citation Statements Given

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Affiliations

National Yang Ming Chiao Tung University, National Chi Nan University

Publications

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Efficiency enhancement and sensitive broadband 1Hz ∼ 1kHz of power generator by recycling vibration energy on Automobile

Wei

Sun

et al. 2012

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Based on novel design of moveable magnet between two mutually inimical magnetic forces without strict fabrication, for the first time, we demonstrate successfully a producible power generator with significant efficiency enhancement at broadband frequency range of 1 Hz ~ 1 kHz, 3D-colis stackability for output voltage improvement, and recycling vibration energy on automobile simultaneously. Even though the vibration frequency is as low as 1 Hz, two orders-of-magnitude improvements in normalized power (the ratio of power to product of external force and coil turns) provided from previous reports can be obtained. Further, comparing our device with maturely accelerometer chip (MMA7361) indicates that proposed strategies benefit harvesting vibration energy on driving automobile indeed. This vibrated power generator inturn provides high potential for applications, such as human motion (1 Hz ~ 2 Hz), sporting (5 Hz ~ 10 Hz), and automotive (10 Hz ~ 1 kHz) etc..

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Concept for Efficient Light Harvesting in Perovskite Materials via Solar Harvester with Multi-Functional Folded Electrode

et al. 2021

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Conventional electrodes in typical photodetectors only conduct electrical signals and introduce high optical reflection, impacting the optical-to-electrical conversion efficiency. The created surface solar harvester with a multi-functional folded electrode (MFFE) realizes both a three-dimensional Schottky junction with a larger light detecting area as well as low optical reflection from 300 nm (ultra-violet light) to 1100 nm (near-infrared light) broadly without an additional anti-reflection layer. The MFFE needs silicon etching following the lithography process. The metal silver was deposited over structured silicon, completing the whole device simply. According to the experimental results, the width ratio of the bottom side to the top side in MFFE was 15.75, and it showed an optical reflection of 5–7% within the major solar spectrum of AM1.5G by the gradient refractive index effect and the multi-scattering phenomenon simultaneously. While the perovskite materials were deposited over the MFFE structure of the solar harvester, the three-dimensional electrode with lower optical reflection benefitted the perovskite solar cell with a larger detecting area and an additional anti-reflection function to absorb solar energy more efficiently. In this concept, because of the thin stacked film in the perovskite solar cell, the solar energy could be harvested by the prepared Schottky junction of the solar harvester again, except for the optical absorption of the perovskite materials. Moreover, the perovskite materials deposited over the MFFE structure could not absorb near-infrared (NIR) energies to become transparent. The NIR light could be harvested by the light detecting junction of the solar harvester to generate effective photocurrent output additionally for extending the detection capability of perovskite solar cell further. In this work, the concept of integration of a conventional perovskite solar cell with a silicon-based solar harvester having an MFFE structure was proposed and is expected to harvest broadband light energies under low optical reflection and enhance the solar energy conversion efficiency.

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High photothermal properties in silicon nanostructures

Ren

Wei

Hsiao

et al. 2016

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Highly scalable and sensitive broadband 1Hz ∼ 1kHz vibrated energy harvester with novel self-alternation magnetic-flux and 3D coils

Lai

Wei

Lin

et al. 2011

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High optical conversion capability within the interface between graphene and Si under zero bias and visible to near infrared regime

Hsiao

Wei

Ren

et al. 2016

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Mao-Qugn Wei

Efficiency enhancement and sensitive broadband 1Hz ∼ 1kHz of power generator by recycling vibration energy on Automobile

Concept for Efficient Light Harvesting in Perovskite Materials via Solar Harvester with Multi-Functional Folded Electrode

High photothermal properties in silicon nanostructures

Highly scalable and sensitive broadband 1Hz ∼ 1kHz vibrated energy harvester with novel self-alternation magnetic-flux and 3D coils

High optical conversion capability within the interface between graphene and Si under zero bias and visible to near infrared regime

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About

Mao-Qugn Wei

Efficiency enhancement and sensitive broadband 1Hz &#x223C; 1kHz of power generator by recycling vibration energy on Automobile

Concept for Efficient Light Harvesting in Perovskite Materials via Solar Harvester with Multi-Functional Folded Electrode

High photothermal properties in silicon nanostructures

Highly scalable and sensitive broadband 1Hz &#x223C; 1kHz vibrated energy harvester with novel self-alternation magnetic-flux and 3D coils

High optical conversion capability within the interface between graphene and Si under zero bias and visible to near infrared regime

Contact Info

Product

Resources

About

Efficiency enhancement and sensitive broadband 1Hz ∼ 1kHz of power generator by recycling vibration energy on Automobile

Highly scalable and sensitive broadband 1Hz ∼ 1kHz vibrated energy harvester with novel self-alternation magnetic-flux and 3D coils