Your search keyword '"Zhuoya Sun"' showing total 3 results

1. Nonlinear Optical Bistability in a Bragg Reflector Multilayered Structure with MoS2

Author

Songqing Tang, Xilei Dong, Leyong Jiang, Haishao Chen, Zhuoya Sun, Fuping Zhang, Yangbin Zhu, and Yunyang Ye

Subjects

optical bistability, nonlinear MoS2, optical Tamm state, visible light band, Crystallography, QD901-999

Abstract

The special band structure of bilayer MoS2 makes it show strong nonlinear optical characteristics in the visible band, which provides a new way to develop visible nonlinear devices. In this paper, we present a theoretical analysis of the optical bistability (OB) in a silver–Bragg reflector structure by embedding bilayer MoS2 at the visible band. The nonlinear OB phenomenon is achieved due to the nonlinear conductivity of the bilayer MoS2 and the excitation of the optical Tamm state at the interface between the silver and the Bragg reflector. It is found that the hysteresis behavior and the threshold width of the OB can be effectively tuned by varying the incident light wavelength. In addition, the optical bistable behavior of the structure can be adjusted by varying the position of the MoS2 inset in the defect layer, the incident angle, and the structural parameters of the spacer layer. We believe the above results can provide a new paradigm for the construction of controllable bistable devices.

Published

2025

2. Establishment of a Dual-Antigen Indirect ELISA Based on p30 and pB602L to Detect Antibodies against African Swine Fever Virus

Author

Lei Zhou, Jinxing Song, Mengxiang Wang, Zhuoya Sun, Junru Sun, Panpan Tian, Guoqing Zhuang, Angke Zhang, Yanan Wu, and Gaiping Zhang

Subjects

African swine fever virus, dual-antigen indirect ELISA, antibody detection, serological diagnosis, Microbiology, QR1-502

Abstract

African swine fever (ASF) is an acute, virulent, and highly fatal infectious disease caused by the African swine fever virus (ASFV). There is no effective vaccine or diagnostic method to prevent and control this disease currently, which highlights the significance of ASF early detection. In this study, we chose an early antigen and a late-expressed antigen to co-detect the target antibody, which not only helps in early detection but also improves accuracy and sensitivity. CP204L and B602L were successfully expressed as soluble proteins in an Escherichia coli vector system. By optimizing various conditions, a dual-antigen indirect ELISA for ASFV antibodies was established. The assay was non-cross-reactive with antibodies against the porcine reproductive and respiratory syndrome virus, classical swine fever virus, porcine circovirus type 2, and pseudorabies virus. The maximum serum dilution for detection of ASFV-positive sera was 1:1600. The intra-batch reproducibility coefficient of variation was

Published

2023

3. Grid-Connected Inverter for a PV-Powered Electric Vehicle Charging Station to Enhance the Stability of a Microgrid

Author

Yohan Jang, Zhuoya Sun, Sanghyuk Ji, Chaeeun Lee, Daeung Jeong, Seunghoon Choung, and Sungwoo Bae

Subjects

Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, electric vehicle charging station, Geography, Planning and Development, inverter, microgrid, photovoltaics, renewable energy source, vehicle-to-grid, TJ807-830, Management, Monitoring, Policy and Law, TD194-195, Renewable energy sources, Environmental sciences, GE1-350

Abstract

This study proposes a grid-connected inverter for photovoltaic (PV)-powered electric vehicle (EV) charging stations. The significant function of the proposed inverter is to enhance the stability of a microgrid. The proposed inverter can stabilize its grid voltage and frequency by supplying or absorbing active or reactive power to or from a microgrid using EVs and PV generation. Moreover, the proposed inverter can automatically detect an abnormal condition of the grid, such as a blackout, and operate in the islanding mode, which can provide continuous power to local loads using EV vehicle-to-grid service and PV generation. These inverter functions can satisfy the requirements of the grid codes, such as IEEE Standard 1547–2018 and UL 1741 SA. In addition, the proposed inverter can not only enhance the microgrid stability but also charge EVs in an appropriate mode according to the condition of the PV array and EVs. The proposed inverter was verified through experimental results with four scenarios in a lab-scale testbed. These four scenarios include grid normal conditions, grid voltage fluctuations, grid frequency fluctuations, and a power blackout. The experimental results demonstrated that the proposed inverter could enhance the microgrid stability against grid abnormal conditions, fluctuations of grid frequency and voltage, and charge EVs in an appropriate mode.

Published

2021