![]()
- 教师名称:王秀宇
- 教师拼音名称:Wang Xiuyu
- 性别:男
- 职称:教授
-
[01] Xiuyu Wang, Haoran Xu, Qun Ren et al. Sensitivity improvement of ZnSnO3-based UV detector: Strengthened light absorption, spectrum red shift and dark current inhibition, Journal of Alloys and Compounds, 1063(2026), 187634.
-
[02]Xiuyu Wang, Yang Wang, Xiduo Zou et al. QE Improvement of CMOS Image Sensors: Virtual Barrier Model Established for the p-n-Like Junctions of a BSI-PD With Gradient Doping, IEEE Sensors Journal, 25(2025)41236 – 41243.
-
[03] Xiuyu Wang , Yuang Cui , Jiangtao Xu et al. Broad Spectral Response of PD in FSI-CIS With Near-IR Sensitivity Enhancement Based on the Model of Full Impurity Compensation, IEEE Sensors Journal, 24(2024) 41038-41044.
-
[04]Rui Yang, Xiuyu Wang, Changju Liu et al. An area-effective and low-power single-slope ADC for DCG imaging CMOS image sensor, International Journal of Circuit Theory and Applications, 53(2025):1-12.
-
[05] Changju Liu, Xiuyu Wang, Haoran Xu et al. Broad spectral response of large array CIS with BSI-PD from visible light to near ultraviolet, Microelectronics Journal,151(2024) 106344.
-
[06] Xiuyu Wang, Tao Wang, Qun Ren et al. Construction of localized state levels and near-infrared light absorption of silicon: B/P doping and first-principles calculations, Micro and Nanostructures 184 (2023) 207695.
-
[07] Changju Liu, Xiuyu Wang, Qun Ren et al. Enhanced UV detection of ZnSnO3 hollow spheres: Dark current inhibition from excitons and homostructures based on excitation of oxygen vacancies, Ceramics International, 49(2023) 14459-14469.
-
[1] Xiuyu Wang, Binxin Leng, QunRen et al, Formation and dissociation of excitons in La3+-doped BaSnO3 and improvement of ethanol sensitivity: Heating, nano-CdSnO3 decoration and UV illumination, Journal of Alloys and Compounds 926(2022) 166812.
-
[2] Xiuyu Wang, Yingqiao Gao, Zhiyuan Gao et al, Charge transfer potential barrier model of a pinned photodiode in CMOS image sensors, IEEE Sensors Journal 22(2022)4036-4042.
-
[3] Xiuyu Wang, Tao Tao, Zhinan Qi et al, Broad-spectrum UV absorption and gas-sensing improvement of ZnSnO3 cubic particles based on Al-doping and nano-TiO2 decoration. Sensors and Actuators B: Chemical, 326(2021): 129013.
-
[4] Xiuyu Wang, Zhinan Qi, Hui Fu et al, Superior ethanol sensitivity of crystalline Sn1-xNix(MoO4)(2-x) nanoparticles based on O=Mo=O quasi-conjugated structure. Journal of Alloys and Compounds 855 (2021) 157477.
-
[5] Xiuyu Wang, Hui Fu, Zhinan Qi et al, Significant improvement of ethanol sensitivity at low temperature for ZnSnO3 nano-particles: Co-decoration of nano-TiO2/CeO2 and increase of UV intensity. Sensors and Actuators B: Chemical, 323(2020): 128665.
-
[6] Xiuyu Wang, Hui Fu, Qinghong Jiang, Improving the luminous efficiency of marine semiconductor GaN LED by conventional process, Journal of Coastal Research, 112(2020): 343-345.
-
[7]XiuyuWang, Heng Li H, Xuantong Zhu et al, Improving ethanol sensitivity of ZnSnO3 sensor at low temperature with multi-measures: Mg doping, nano-TiO2 decoration and UV radiation [J]. Sensors and Actuators B: Chemical, 297(2019): 126745.
-
[8] XiuyuWang, Mengzhen Xia, Heng Li et al, Preparation of transparent amorphous ZnSnO3 cubic nanoparticles and light-induced homostructures: Application in UV sensor and room-temperature gas sensor [J]. Applied Surface Science, 493(2019): 862–872.
