Chuangjie Zhou scite author profile

Hydrogenated diamond MOSFETs with self-oxidized alumina as a gate dielectric are fabricated. The diamond MOSFETs show a high maximum drain current density of 466 mA/mm at VGS = −6 V, a transconductance of 58 mS/mm, and an off-state breakdown voltage of −53 V. The maximum output power density reaches 745 mW/mm at 2 GHz continuous wave, which is the highest reported value for diamond transistors measured at 2 GHz. The output power value measured is lower than that estimated. Pulse I-V analysis shows that the main factor that affects the output power of the diamond MOSFETs is the traps in the channel.

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Epitaxial graphene gas sensors on SiC substrate with high sensitivity

Chen

Liu

et al. 2020

J. Semicond.

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2D material of graphene has inspired huge interest in fabricating of solid state gas sensors. In this work, epitaxial graphene, quasi-free-standing graphene, and CVD epitaxial graphene samples on SiC substrates are used to fabricate gas sensors. Defects are introduced into graphene using SF6 plasma treatment to improve the performance of the gas sensors. The epitaxial graphene shows high sensitivity to NO2 with response of 105.1% to 4 ppm NO2 and detection limit of 1 ppb. The higher sensitivity of epitaxial graphene compared to quasi-free-standing graphene, and CVD epitaxial graphene was found to be related to the different doping types of the samples.

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Hydrogen-terminated diamond MOSFETs on (0 0 1) single crystal diamond with state of the art high RF power density

et al. 2022

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Chemical vapor deposition graphene of high mobility by gradient growth method on an 4H-SiC (0 0 0 1) substrate

Liu

Chen

et al. 2018

Applied Surface Science

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Chuangjie Zhou

Improvement of the Frequency Characteristics of Graphene Field-Effect Transistors on SiC Substrate

Radiofrequency performance of hydrogenated diamond MOSFETs with alumina

Epitaxial graphene gas sensors on SiC substrate with high sensitivity

Hydrogen-terminated diamond MOSFETs on (0 0 1) single crystal diamond with state of the art high RF power density

Chemical vapor deposition graphene of high mobility by gradient growth method on an 4H-SiC (0 0 0 1) substrate

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About

Chuangjie Zhou

Improvement of the Frequency Characteristics of Graphene Field-Effect Transistors on SiC Substrate

Radiofrequency performance of hydrogenated diamond MOSFETs with alumina

Epitaxial graphene gas sensors on SiC substrate with high sensitivity

Hydrogen-terminated diamond MOSFETs on (0 0 1) single crystal diamond with state of the art high RF power density

Chemical vapor deposition graphene of high mobility by gradient growth method on an 4H-SiC (0 0 0 1) substrate

Contact Info

Product

Resources

About

Chemical vapor deposition graphene of high mobility by gradient growth method on an 4H-SiC (0 0 0 1) substrate