Your search keyword '"Xin Ran"' showing total 2 results

1. Light-erasable embedded charge-trapping memory based on MoS2 for system-on-panel applications.

Author

Long-Fei He, Hao Zhu, Jing Xu, Hao Liu, Xin-Ran Nie, Lin Chen, Qing-Qing Sun, Yang Xia, and Wei Zhang, David

Subjects

DIELECTRICS, SEMICONDUCTORS, METADATA, LIGHT, ELECTROMAGNETIC waves

Abstract

The continuous scaling and challenges in device integrations in modern portable electronic products have aroused many scientific interests, and a great deal of effort has been made in seeking solutions towards a more microminiaturized package assembled with smaller and more powerful components. In this study, an embedded light-erasable charge-trapping memory with a high-k dielectric stack (Al2O3/HfO2/Al2O3) and an atomically thin MoS2 channel has been fabricated and fully characterized. The memory exhibits a sufficient memory window, fast programming and erasing (P/E) speed, and high On/Off current ratio up to 107. Less than 25% memory window degradation is observed after projected 10-year retention, and the device functions perfectly after 8000 P/E operation cycles. Furthermore, the programmed device can be fully erased by incident light without electrical assistance. Such excellent memory performance originates from the intrinsic properties of two-dimensional (2D) MoS2 and the engineered back-gate dielectric stack. Our integration of 2D semiconductors in the infrastructure of light-erasable charge-trapping memory is very promising for future system-on-panel applications like storage of metadata and flexible imaging arrays. [ABSTRACT FROM AUTHOR]

Published

2017

2. Distinct photoresponse in graphene induced by laser irradiation.

Author

Wen Hui Wang, Hai Yan Nan, Qi Liu, Zheng Liang, Zhi Hao Yu, Feng Yuan Liu, Wei Da Hu, Wei Zhang, Xin Ran Wang, and Zhen Hua Ni

Subjects

PHOTODETECTORS, GRAPHENE, LASER beams, SEMICONDUCTOR junctions, PHOTOCURRENTS

Abstract

The graphene-based photodetector with tunable p-p+-p junctions was fabricated through a simple laser irradiation process. Distinct photoresponse was observed at the graphene (G)-laser irradiated graphene (LIG) junction by scanning photocurrent measurements, and its magnitude can be modulated as a result of a positive correlation between the photocurrent and doping concentration in LIG region. Detailed investigation suggests that the photo-thermoelectric effect, instead of the photovoltaic effect, dominates the photocurrent generation at the G-LIG junctions. Such a simple and low-cost technique offers an alternative way for the fabrication of graphene-based optoelectronic devices. [ABSTRACT FROM AUTHOR]

Published

2015