袁博宇导师个人档案
姓名: | 袁博宇 |
性别: | 男 |
出生年月: | 1982.9 |
学历: | 博士研究生 |
职务: | 无 |
职称: | 副教授 |
Email: | yuanby@jsnu.edu.cn |
联系电话: | *********** |
专业与主要研究方向: | |
1.光学工程:光电检测及应用 2.图像处理:光电信息处理 | |
教授课程: | |
1.C++程序设计 2.DSP原理及应用 | |
研究生培养基础要求: | |
有一定的光学测量、数字图像处理基础,对激光技术及应用有浓厚兴趣。 | |
个人教育简历: | |
2000.9--2004.6,山东大学光电子信息工程系,电子科学与技术专业,工学学士; 2004.9--2007.6,山东大学信息科学与工程学院,信号与信息处理专业,工学硕士; 2011.9--2014.6,中国矿业大学机电工程学院,机械电子工程专业,工学博士学位; | |
个人工作简历: | |
2015.1 - 江苏师范大学副教授,硕士生导师 2015.6 - 2016.6 新加坡国立大学访问学者 2014.6 - 2014.9 香港浸会大学访问学者 2007.7 - 2014.12 江苏师范大学任助教、讲师 | |
社会兼职: | |
无 | |
近期主要主持的项目: | |
1.国家自然科学基金青年项目(2015.01-2017.12):实时全息成像方法研究不锈钢的点蚀过程。 项目经费:25万。项目负责人; 2.博士学位启动项目(2016.12-2019.12):基于数字全息的金属局部腐蚀检测方法研究。 项目经费:20万。项目负责人; 3.国家自然科学基金面上项目(2015.01-2018.12):基于表面和界面同步观测技术研究金属的局部腐蚀。 项目经费:80万。主要参与人。 | |
代表性论文: | |
(1) Boyu Yuan, Shen Tong, Xiaoyan Zhang, Liang Li, Chao Wang, Automaticmonitoring refractive index variations of transient solution during electrochemical reactions, Measurement, 98: 10-16, 2017. (SCI, EI) (2) Yongpan Hu, Xijiao Li, Zhijuan Jiao, Guifei Gao, Boyu Yuan, Liang Li, Chao Wang, Investigation into the Anodic Dissolution Processes of Copper in Neutral and Acidic Sulfate Solutions with the In-line Digital Holography, Electrochemistry, 84:378-382, 2016. (SCI, EI) (3) Yuxuan Zhu, Qinghong Wang, Xinsheng Zhao, Boyu Yuan, Cross-linked porous alpha-Fe2O3 nanorods as high performance anode materials for lithium ion batteries, RSC Advances, 6:97385-97390, 2016. (SCI) (4) Xijiao Li, Zhang Min, Boyu Yuan, Liang Li, Chao Wang, Effects of the magnetic field on the corrosion dissolution of the 304 SSFeCl3 system, Electrochimica Acta, 222:619-626, 2016. (SCI一区, EI) (5) Dahai Xia, Jingli Luo, Zhiming Gao, Boyu Yuan, Liang Li, Chao Wang, Monitoring the Diffusion Layer During Passive Film Breakdown on Alloy 800 with Digital Holography, Acta Metallurgica Sinica, 28:1170-1174, 2015. (SCI, EI) (6) Guifei Gao, Boyu Yuan, Chao Wang, Liang Li, Shenhao Chen, The Anodic Dissolution Processes of Copper in Sodium Fluoride Solution, International Journal of Electrochemical Science, 9:2565-2574, 2014. (SCI) (7) 袁博宇, 李威, 罗成名, 溶液浓度变化实时检测系统的设计, 光学精密工程, 22:18-23, 2014. (EI) (8) Boyu Yuan, Wei Li, Chao Wang, Liang Li, Sensing of the dynamic concentration field at the solid/liquid interface using a Mach-Zehnder interferometer, Sensors and Actuators B: Chemical, 176:509-513, 2013. (SCI二区Top, EI) (9) Boyu Yuan, Wei Li, Xiaoyan Zhang, Chao Wang, Liang Li, Direct observation of the diffusion layer during copper electrodeposition, Microelectronic Engineering, 107:37-41, 2013. (SCI, EI) (10)Boyu Yuan, Jianli Zhang, Guifei Gao, Liang Li, Chao Wang, Dynamic observation of the diffusion layer in anodic processes of the Fe/H2SO4 system with digital holography, Electrochemistry Communications, 27:116-119, 2013. (SCI一区, EI) (11)Boyu Yuan, Chao Wang, Liang Li, Shenhao Chen, Investigation of the effects of the magnetic field on the anodic dissolution of copper in NaCl solutions with holography, Corrosion Science, 58:69-78, 2012. (SCI一区, EI) (12)Wei Li, Boyu Yuan, Chao Wang, Liang Li, Shenhao Chen, Dynamic sensing of the localized corrosion at the metal/solution interface, Sensors, 12:4962-4973, 2012. (SCI) (13)Boyu Yuan, Chao Wang, Liang Li, Shenhao Chen, Fast visualization of the mass transfer processes at electrode/electrolyte interface with a Mach-Zehnder interferometer, Russian Journal of Electrochemistry, 48:804-809, 2012. (SCI, EI) (14)Boyu Yuan, Chao Wang, Liang Li, Shenhao Chen, Real time observation of the anodic dissolution of copper in NaCl solution with the digital holography, Electrochemistry Communications, 11:1373–1376, 2009. (SCI一区, EI) (15)Boyu Yuan, Shenhao Chen, Xuegeng Yang, Chao Wang, Liang Li, Mapping the transient concentration field within the diffusion layer by use of the digital holographic reconstruction, Electrochemistry Communications, 10:392-396, 2008. (SCI一区, EI) (16)袁博宇, 吴晓娟, 陈慎豪, 杨学耕. 基于干涉原理和图像处理方法的浓度变化分布测量. 中国激光, 34(1):82-88, 2007. (EI) | |
专利: | |
1.第一发明人. 固液界面电极过程分析系统及其图形处理方法. 国家发明专利已受理(2016.7)。 2.第一发明人. 基于图像处理的固液界面电极过程自动分析系统. 国家发明专利已受理(2016.7)。 | |