姓名:丛佳
职称:讲师
研究方向:光电子集成、可见光通信、集成电路设计
通讯地址:天津市西青区津静路26号天津城建大学永利娱场城官网地址 (congj2012@163.com)
科研项目
1. 国家自然科学基金(青年项目),多色可见光通信系统中超表面滤光全差分光接收机芯片研究,2023.1-2025.12,主持
2.国家重点研发计划,可见光通信关键技术及系统研发, 2017.07-2020.06,参与
3. 国家自然科学基金项目,激光诱导界面微结构对热辐射特性的影响及其调控机理研究,2013.1-2016.12,参与
4.天津科技特派员项目,单偏芯内结构型光纤光栅模式耦合特性及应用研究,2021.10-2022.09,参与
5. 横向项目,物联网传输设备配套技术研发, 2021.07- 2021.10,参与
6.横向项目,土方运输系统,2022.05-2023.06,参与
7.横向项目,信息安全产品安全增强模型开发,2021.08-2022.05,参与
8.校级重点教改项目,工程教育认证背景下电子信息工程应用型一流专业建设与实践,参与
撰写论文、教材、专著等
学术论文
1.Cong J, Yang J, Zhao B, et al. Fabricating subwavelength dot-matrix surface structures of molybdenum by transient correlated actions of two-color femtosecond laser beams [J]. Optics Express, 2015, 23(4):5357-67.
2.Jia Cong, Luhong Mao, Rong Xie, et al. An Efficient Forward-Biased Si CMOS LED with High Optical Power Density and Nonlinear Optical-Power-Current Characteristic [J].IEEE Photonics Journal, 2019, 11(2):6600910.
3.Jia Cong, Luhong Mao, et al. Photoelectric dual control negative differential resistance device with ultra-high peak-to-valley current ratio fabricated by standard CMOS Process. IEEE Photonics Journal, 2019, 11(3): 6601410.
4.Jia Cong, Dong Yan, et al Integrated color photodetectors in standard 40 nm standard CMOS technology [J]. IEEE Photonics Technology Letters, 2019, 31(24): 1979-1982.
5.Jia Cong, Luhong Mao, et al. Analysis of Electroluminescence Spectra from High Optical-Power Density Forward-Biased Silicon-LED in standard CMOS Technology. Optik,2020,207:163793
6.Cong J, et al. A hybrid optical interconnection system in standard CMOS process[C]// 2017 9th International Conference on Advanced Infocomm Technology. IEEE, 2018,35-39.
7.Sheng Xie, Lihua Wang, Xurui Mao*,Jia Cong*, et al. Brain Inspired Color Feature Selection Chip [J]. IEEE Photonics Journal, 2022, 14(5):19430655.
8.Sheng Xie, Yuhao Zhao, Lihua Wang*,Jia Cong *and Xurui Mao. Brain inspired optoelectronic integrated receiver chip for wireless optical communication [J]. Frontiers in Physics, 2022, 10.
主要专利:
1.发明专利,双波长飞秒激光制备二维周期金属颗粒阵列结构的方法,ZL201410122538.X
2.发明专利,基于标准CMOS工艺的全波导型横向多晶硅光互连系统,CN 201710990355.3
3.发明专利,基于标准CMOS工艺的多晶硅LED/单晶硅PD纵向光互连系统,ZL201710989423.4
4.发明专利,一种基于可见光通信的自动识别无源标签及其通信系统,ZL201610912587.2
5.发明专利,一种基于标准CMOS工艺的混合光互连系统,ZL201710990355.3
6.发明专利,一种用于可见光通信的标准CMOS全差分光电集成接收机,ZL201911061519.X
7.发明专利,一种基于PIN型光电探测器的可见光通信全差分光电集成接收机,CN 2022105969711
8.软件著作,基于Arduino和树莓派的环境数据可视化系统V1.0,2021SR1664650
