Chung-Jen Chung scite author profile

Investigating quantum confinement in graphene under ambient conditions remains a challenge. In this study, we present graphene oxide quantum dots (GOQDs) that show excitation-wavelength-independent photoluminescence. The luminescence color varies from orange-red to blue as the GOQD size is reduced from 8 to 1 nm. The photoluminescence of each GOQD specimen is associated with electron transitions from the antibonding π (π*) to oxygen nonbonding (n-state) orbitals. The observed quantum confinement is ascribed to a size change in the sp(2) domains, which leads to a change in the π*-π gap; the n-state levels remain unaffected by the size change. The electronic properties and mechanisms involved in quantum-confined photoluminescence can serve as the foundation for the application of oxygenated graphene in electronics, photonics, and biology.

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Influence of surface roughness of Bragg reflectors on resonance characteristics of solidly-mounted resonators

Chung

Chen

Cheng

et al. 2007

IEEE Trans. Ultrason., Ferroelect., Freq. Contr.

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Fabrication and frequency response of solidly mounted resonators with 1/4λ mode configuration

Chung¹,

Chen²,

Cheng³

et al. 2008

Thin Solid Films

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Nano-structure and nano-mechanical properties of human teeth

Chung

Lin

et al. 2011

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Synthesis and bulk acoustic wave properties on the dual mode frequency shift of solidly mounted resonators

Chung

Chen

Cheng

et al. 2008

IEEE Trans. Ultrason., Ferroelect., Freq. Contr.

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This study focused on the fabrication and the theoretical analysis of solidly mounted resonators (SMR) concerning dual-mode frequency responses and their frequency shift of bulk acoustic wave (BAW) resonance. For this device fabrication, RF/DC magnetron sputtering and photolithography were employed to constitute the required multilayer structure. For the theoretical analysis, the dualmode frequency shift was characterized by the Sauerbrey's formula, and a modified formula was carried out following the trend for the large frequency shift. In the fabrication of the SMR device, Mo/SiO2 was chosen to construct the Bragg reflector as the high/low acoustic impedance materials, respectively, and aluminum nitride (AlN) was used as a piezoelectric layer. To investigate the characteristics of BAW on the dual-mode frequency shift, the c-axis tilted angle of AlN was altered as well as the various mass loading on the SMR. Based on the experimental results, the dual-resonance frequencies showed a nonlinear decreasing trend with a linear increase of the mass loading. Therefore, a modified formula was carried out. Furthermore, the ratio of the longitudinal-resonant frequency to the shear-resonant frequency remained at a range around 1.76 despite the various c-axis tilted angles of AlN and gradual mass loading on the SMR. The electromechanical coupling coefficient, k2(eff), of the shear resonance rose with the increase of the c-axis tilted angle of AlN.

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Chung-Jen Chung

Elucidating Quantum Confinement in Graphene Oxide Dots Based On Excitation-Wavelength-Independent Photoluminescence

Influence of surface roughness of Bragg reflectors on resonance characteristics of solidly-mounted resonators

Fabrication and frequency response of solidly mounted resonators with 1/4λ mode configuration

Nano-structure and nano-mechanical properties of human teeth

Synthesis and bulk acoustic wave properties on the dual mode frequency shift of solidly mounted resonators

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