Your search keyword '"Wenjuan Deng"' showing total 3 results

1. Development of the microstructure of 2D graphene sheets in the molecular dynamics simulation of irradiation damage cascades.

Author

Wang, Weilu, Wang, Ke, and Wenjuan, Deng

Subjects

MOLECULAR dynamics, GRAPHENE, SHOCK waves, MICROSTRUCTURE, NUCLEAR industry, IRRADIATION

Abstract

Two-dimensional graphene is widely used in the nuclear industry, computer simulation of the physical process of graphene irradiation damage can assist the study of microscopic dynamic processes that cannot be directly observed in irradiation experiments. The irradiation-induced microstructural change of 2D graphene sheets was studied using molecular dynamics simulations with a maximum primary knock-on atoms (PKA) energy of 180 keV. The results show that using direct observation, the defects generated during the cascade collision process can be divided into three types according to the generation mechanism: defects by PKA damage (DPD), instantaneous defects by shock wave rippling (DSR), and permanent defects by shock wave overlapping (DSO). The atomic configuration of the final stage consists of various topological polygons; in general, octagons and polygons with fewer than eight sides are bulged, while polygons with more than eight sides are depressed. The largest topological polygon found by the simulation is a 13-sided polygon. In addition to atoms with a coordination number of 3 (originating from the perfect lattice structure of graphene), atoms with coordination numbers of 2 and 4 are produced. Atoms with a coordination number of 4 are generally enclosed by four polygons that have no more than six sides, while atoms with a coordination number of 2 are generally located between two polygons that have at least six sides. [ABSTRACT FROM AUTHOR]

Published

2024

2. Collisional Sheath in the Electronegative Radio-Frequency Plasma.

Author

Baoxia, Gan, Wenjuan, Deng, and Yinhua, Chen

Published

2007

3. Inductively coupled plasma etching of the GaAs nanowire array based on self-assembled SiO2 nanospheres.

Author

Yun Liu, Xincun Peng, Zhidong Wang, Tao Zhang, Yun Yu, Jijun Zou, Wenjuan Deng, and Zhifu Zhu

Abstract

We reported a method combining the gas–liquid interface method and inductively coupled plasma (ICP) to fabricate highly-ordered nanowire arrays on a 2 inch GaAs substrate. A large-area and highly-ordered SiO2 nanosphere monolayer was fabricated and the GaAs nanowire array was etched by ICP. The flow rates and ratios of the etching gases were studied. Finally, highly-ordered GaAs nanowire arrays with high quality surface morphology were obtained with the volumetric flow rates at 9 sccm and 21 sccm for BCl3 and N2 gases, respectively. Reflectance of the samples was found to be consistently below 10%, the lowest being 3%. [ABSTRACT FROM AUTHOR]

Published

2019