Chung Jen Chung scite author profile

Interest in bringing p- and n-type monolayer semiconducting transition metal dichalcogenides (TMD) into contact to form rectifying pn diode has thrived since it is crucial to control the electrical properties in two-dimensional (2D) electronic and optoelectronic devices. Usually this involves vertically stacking different TMDs with pn heterojunction or, laterally manipulating carrier density by gate biasing. Here, by utilizing a locally reversed ferroelectric polarization, we laterally manipulate the carrier density and created a WSe2 pn homojunction on the supporting ferroelectric BiFeO3 substrate. This non-volatile WSe2 pn homojunction is demonstrated with optical and scanning probe methods and scanning photoelectron micro-spectroscopy. A homo-interface is a direct manifestation of our WSe2 pn diode, which can be quantitatively understood as a clear rectifying behavior. The non-volatile confinement of carriers and associated gate-free pn homojunction can be an addition to the 2D electron–photon toolbox and pave the way to develop laterally 2D electronics and photonics.

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Laser fabrication of all-solid-state microsupercapacitors with ultrahigh energy and power based on hierarchical pore carbon

Huang

Chung

Hsieh

et al. 2016

Nano Energy

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Microstructure and lubricating property of ultra-fast laser pulse textured silicon carbide seals

Chen

Chung

et al. 2012

Appl. Phys. A

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Most previous studies have employed surface patterning to improve the performance of lubrication systems. However, few have experimentally analyzed improved effects on friction reduction in SiC mechanical seals by ultra-fast laser pulse texturing. This work applies surface texturing on a non-contact mechanical seal and analyzes the characteristics of the resultant surface morphology. A femtosecond laser system is employed to fabricate micro/nanostructures on the SiC mechanical seal, and generates microscale-depth stripes and induces nanostructures on the seal surface. This work examines the morphology and cross section of the SiC nanostructures that correspond to the different scanning speeds of the laser pulse. Results show that varying the scanning speed enables the application of nanostructures of different amplitudes and widths on the surface of the seal. The friction coefficient of the introduced SiC full-textured seal is about 20% smaller than that of a conventional SiC mechanical seal. Hence, femtosecond laser texturing is effective and enables direct fabrication of the surface micro/nanostructures of SiC seals. This

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Low-Friction Characteristics of Nanostructured Surfaces on Silicon Carbide for Water-Lubricated Seals

Chen

Chung

et al. 2013

Tribol Lett

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Stress–strain analysis for evaluating the effect of the orientation of dentin tubules on their mechanical properties and deformation behavior

Han

Chung

et al. 2012

Journal of the Mechanical Behavior of Biomedical Materials

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Chung Jen Chung

A gate-free monolayer WSe2 pn diode

Laser fabrication of all-solid-state microsupercapacitors with ultrahigh energy and power based on hierarchical pore carbon

Microstructure and lubricating property of ultra-fast laser pulse textured silicon carbide seals

Low-Friction Characteristics of Nanostructured Surfaces on Silicon Carbide for Water-Lubricated Seals

Stress–strain analysis for evaluating the effect of the orientation of dentin tubules on their mechanical properties and deformation behavior

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