Search

Your search keyword '"Wenjiang Gao"' showing total 4 results
Start Over Author "Wenjiang Gao"
4 results on '"Wenjiang Gao"'

1. Polar iodate BiO(IO3): A two-dimensional ultrawide-bandgap semiconductor with high carrier mobility and robust piezoelectricity

Author

Meiyang Yu, Wenjiang Gao, Xiaobo Shi, Qingqing Yuan, Bing Wang, Lin Ju, and Huabing Yin

Subjects
2D materials, Ultrawide bandgap, Piezoelectricity, High carrier mobility, Physics, QC1-999
Abstract

Ultrawide-bandgap (UWBG) semiconductors, surpassing GaN with a bandgap of 3.4 eV, offer distinct advantages in high-temperature, high-frequency, and radiation-resistant applications. Specifically, two-dimensional (2D) UWBG materials play a crucial role in the miniaturization of practical devices. Here, employing first-principles calculations, we explore the properties of the polar iodate BiO(IO3) in its 2D monolayer configuration, boasting a bandgap of 3.61 eV. Our calculations confirm the feasibility of deriving 2D BiO(IO3) monolayer from its bulk counterpart while retaining structural stability at room temperature. The UWBG BiO(IO3) monolayer exhibits remarkable ultraviolet absorption, mechanical flexibility, and favorable electronic transport behavior. Notably, the estimated electron mobility reaches an impressive 1353.13 cm2 V−1 s−1. Importantly, the 2D structure of BiO(IO3) displays robust in-plane piezoelectricity without the odd–even effect commonly observed in other 2D piezoelectric materials. The piezoelectric coefficients d21 and d22 of monolayer reach high values of 13.87 and 16.66 pm V−1, respectively, surpassing or closely approaching those of most well-studied 2D systems. The direct stacking configuration enables 2D BiO(IO3) materials to maintain robust piezoelectricity at different thicknesses. Charge injection simulations validate the electromechanical conversion process, aligning well with its piezoelectric properties. This suggests the promising application potential of 2D BiO(IO3) in devices such as micro-electro-mechanical systems.

Published
2024
Full Text
View/download PDF

2. Application of Adaboost Algorithm on Automatic Detection of Electrical Equipment Operation Status

Author

Li Xuan, Zhicheng Xue, Wu Weinan, and Wenjiang Gao

Subjects
Support vector machine, History, Computer science, Electrical equipment, Research Object, Classifier (UML), Algorithm, Adaboost algorithm, Computer Science Applications, Education, Diagnosis methods
Abstract

The algorithm can integrate weak classifiers that are slightly better than random guesses, and output strong classifiers with higher classification accuracy. In order to further improve the classification accuracy of the algorithm, an infinite dimensional algorithm based on support vector machine is established. The key to realize the infinite dimensional algorithm is to establish a new support vector machine kernel function, so that this kernel function integrates infinite multiple algorithm weak classifier. The infinite dimensional algorithm is used for analog circuit fault diagnosis. The fault diagnosis results show that the classification accuracy of the infinite dimensional algorithm is better than the finite dimensional algorithm, which improves the classification accuracy of the algorithm. Based on the analysis of the operation status and fault diagnosis of modern electrical equipment, this paper discusses the necessity and possibility of monitoring the operation status of electrical equipment, and takes the method of electrical operation monitoring and the method of fault diagnosis as the research object. The methods and fault diagnosis methods of current electrical equipment operation monitoring are expounded. On this basis, the future development trend of equipment operation monitoring is explained, and the importance of online monitoring development is analyzed.

Published
2019

Catalog

Books, media, physical & digital resources
See catalog results