Xuan Thang Trinh scite author profile

In this paper, we investigate the origin of point defects revealed by electron spin resonance (ESR) and photoluminescence (PL) emission in correlation with the photocatalytic activity of ZnO nanocrystals subjected to thermal annealing at various temperatures. Two ESR signals at g ∼ 1.96 and ∼2.003 were consistently observed in all annealed ZnO samples. However, their relative intensities have changed, indicating that the point defect densities were influenced by the annealing temperature. Interestingly, when doping nanoZnO with Cr 3+ , the Q-band ESR measurements at T = 100 K did show that the g ∼ 1.96 signal was completely passivated, suggesting that the origin of the signal lies in the electrons located near the conduction band, i.e. at a shallow-donor level. The intensity of the g ∼ 2.003 signal decreased by rising the annealing temperature, and this is attributed to the depopulation of zinc interstitials through the thermally induced migration process and/or recombination with the zinc vacancies. The green PL emission line at ∼520 nm, which is dominant in the 700 • C annealed ZnO sample, shows a correlation with the ESR signal at g ∼ 1.96, whose origin is attributed to the radiative transition of the electron from the shallow donor level to the singly ionized zinc vacancy. Furthermore, the high density of the shallow donor electron states was found to be primarily responsible for the high photocatalytic activity in the degradation of methylene blue.

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Time Varying Disturbance Observer Based on Sliding Mode Control for Active Magnetic Bearing System

Giap

Huang

Nguyen

et al. 2021

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Miniature Tri-Axis Magnetometer With In-Plane GMR Sensors

Trinh

Jeng

et al. 2017

IEEE Trans. Magn.

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Quasi-Static Current Measurement with Field-Modulated Spin-Valve GMR Sensors

Jeng

Trinh

Hung

et al. 2019

Sensors

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A non-contact current measurement device comprised of a GMR sensor and a ferrite ring core was investigated. The sensor chip employed a high-sensitivity spin-valve full-bridge GMR sensor of which the direct output has non-negligible hysteresis and a limited linear range. By applying an AC modulation current to modulate the output of the GMR sensor, the hysteresis was reduced, and the linear range was over ±0.5 A. The resolution for DC and quasi-static current measurement was 0.1 mA at a 10 Hz bandwidth. The output in proportion to the measured current was obtained either by demodulating the current-sensitive AC signal or by employing the filtered output of the intrinsically nonlinear spin-valve response. The proposed current sensing scheme is suitable for quasi-static current measurement from DC to over 100 Hz.

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Xuan Thang Trinh

Disturbance Observer Based on Terminal Sliding-Mode Control for a Secure Communication of Fractional-Order Takagi-Sugeno Fuzzy Chaotic Systems

Correlation of native point defects and photocatalytic activity of annealed ZnO nanoparticle studied by electron spin resonance and photoluminescence emission

Time Varying Disturbance Observer Based on Sliding Mode Control for Active Magnetic Bearing System

Miniature Tri-Axis Magnetometer With In-Plane GMR Sensors

Quasi-Static Current Measurement with Field-Modulated Spin-Valve GMR Sensors

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