黄北举-中国科学院大学-UCAS
[中文]
[English]
招生信息
教育背景
教授课程
专利与奖励
出版信息
科研活动
指导学生
基本信息
黄北举 男 硕导 中国科学院半导体研究所电子邮件： bjhuang@semi.ac.cn通信地址： 北京市海淀区清华东路甲35号邮政编码：
研究领域
硅基光电子、CMOS光电集成，系统地开展了微电子和光电子单片集成方面的研究，致力于硅基光电子器件/石墨烯二维材料光电子器件和硅微电子器件的单片集成，致力于微纳器件和光电集成芯片在光互连、神经形态类脑计算、传感等领域的应用。
招生信息
招生专业
080903-微电子学与固体电子学085400-电子信息
招生方向
神经形态类脑芯片硅/石墨烯光电器件及集成芯片光电/电光接口专用集成电路设计
教育背景
2004-09--2009-05 中国科学院半导体研究所 博士2000-09--2004-06 西安电子科技大学 学士
教授课程
光电子与微电子集成
专利与奖励
专利成果
[1] 黄北举. 基于偏振旋转分束器实现的光学矩阵向量乘法器.&nbsp202210127057.2,&nbsp2022-02-11.[2] 程传同, 张恒杰, 黄北举, 张欢, 陈润, 黄宇龙, 陈弘达. 光电突触器件阵列及其制备方法、图像处理设备.&nbspCN:&nbspCN113793881A,&nbsp2021-12-14.[3] 黄北举, 陈润, 程传同, 张恒杰, 张欢, 黄宇龙, 陈弘达. 基于石墨烯-CMOS单片集成的探测器芯片的制备方法及系统.&nbspCN:&nbspCN113782640A,&nbsp2021-12-10.[4] 程传同, 张恒杰, 黄北举, 张欢, 陈润, 陈弘达. 三端人工光学突触及其制备方法.&nbspCN:&nbspCN112864164A,&nbsp2021-05-28.[5] 黄北举, 张欢, 程传同, 毛旭瑞, 陈弘达. 一种波导结构的神经突触及其制备方法.&nbspCN:&nbspCN111142186B,&nbsp2021-02-12.[6] 黄北举, 张欢, 程传同, 陈弘达. 基于CMOS后工艺实现的三维光电集成光栅耦合器及制备方法.&nbspCN:&nbspCN110068894A,&nbsp2019-07-30.[7] 程传同, 黄北举, 朱城, 张欢, 陈润, 陈弘达. 在卤化物钙钛矿薄膜表面制作金属微纳结构的方法.&nbspCN:&nbspCN109461817A,&nbsp2019-03-12.[8] 程传同, 黄北举, 毛旭瑞, 董毅博, 张欢, 陈润, 陈弘达. 利用聚对二甲苯制备单层石墨烯的方法.&nbspCN:&nbspCN108793137A,&nbsp2018-11-13.[9] 黄北举, 张欢, 程传同, 陈弘达. 基于CMOS后工艺实现的三维光电集成滤波器及其制备方法.&nbspCN:&nbspCN108321119A,&nbsp2018-07-24.[10] 陈宏达, 张赞, 黄北举, 程传同. 一种带宽可调的带通型光学滤波器.&nbspCN:&nbspCN104765164A,&nbsp2015-07-08.[11] 黄北举, 程传同, 张赞, 张赞允, 毛旭瑞, 甘胜, 李鹏飞, 陈弘达. 无源光限幅器.&nbspCN:&nbspCN104090447A,&nbsp2014-10-08.[12] 黄北举, 程传同, 张赞, 张赞允, 毛旭瑞, 陈弘达. 一种芯片表面污物清洁处理的方法.&nbspCN:&nbspCN104037068A,&nbsp2014-09-10.[13] 黄北举, 张赞, 张赞允, 陈弘达. 采用后端CMOS工艺三维光电集成的方法.&nbspCN:&nbspCN103956340A,&nbsp2014-07-30.[14] 黄北举, 张赞, 张赞允, 程传同, 毛旭瑞, 陈弘达. 采用标准CMOS工艺制备脊型光波导的方法.&nbspCN:&nbspCN103956408A,&nbsp2014-07-30.[15] 黄北举, 程传同, 张赞, 张赞允, 陈弘达. 一种基于一维光栅的表面入射石墨烯光电探测器.&nbspCN:&nbspCN103811568A,&nbsp2014-05-21.[16] 黄北举, 张赞, 张赞允, 陈弘达. 基于对称垂直光栅耦合结构的SOI基光隔离器.&nbspCN:&nbspCN102928925A,&nbsp2013-02-13.[17] 陈弘达, 张赞允, 黄北举, 张赞. 电可调谐光栅耦合器.&nbspCN:&nbspCN102565955A,&nbsp2012-07-11.[18] 陈弘达, 张赞允, 黄北举, 张赞. 基于对称垂直光栅耦合的SOI基电光调制器.&nbspCN:&nbspCN102540505A,&nbsp2012-07-04.[19] 陈弘达, 张旭, 裴为华, 黄北举. 采用T型电容网络反馈结构的CMOS生理信号放大器.&nbspCN:&nbspCN102158178A,&nbsp2011-08-17.[20] 陈弘达, 黄北举, 刘海军, 顾明. 双电容金属氧化物半导体硅基高速高调制效率电光调制器.&nbspCN:&nbspCN100514099C,&nbsp2009-07-15.[21] 陈弘达, 黄北举, 张旭. 一种采用CMOS工艺制作的差分硅光电探测器.&nbspCN:&nbspCN101465358A,&nbsp2009-06-24.[22] 陈弘达, 黄北举, 董赞. SOI衬底CMOS工艺电光调制器.&nbspCN:&nbspCN101458402A,&nbsp2009-06-17.[23] 陈弘达, 黄北举, 刘金彬, 顾明, 刘海军. 三电容MOS硅基高速高调制效率电光调制器.&nbspCN:&nbspCN100468103C,&nbsp2009-03-11.[24] 陈弘达, 刘海军, 黄北举. CMOS硅发光二极管驱动电路.&nbspCN:&nbspCN101034887A,&nbsp2007-09-12.[25] 陈弘达, 刘海军, 黄北举. 采用标准CMOS工艺制作的叉指型结构硅发光二极管.&nbspCN:&nbspCN101034725A,&nbsp2007-09-12.[26] 陈弘达, 黄北举, 顾明, 刘海军. 多层金属间氧化物脊形波导结构及其制作方法.&nbspCN:&nbspCN101034185A,&nbsp2007-09-12.
出版信息
陈弘达、黄北举 等，《石墨烯微电子与光电子器件》，华东理工大学出版社。
发表论文
[1] Huang, Yulong, Huang, Beiju, Cheng, Chuantong, Zhang, Huan, Zhang, Hengjie, Chen, Run, Chen, Hongda. Feature Extraction From Images Using Integrated Photonic Convolutional Kernel. IEEE PHOTONICS JOURNAL[J]. 2022, 14(3):&nbsphttp://dx.doi.org/10.1109/JPHOT.2022.3163793.[2] Zhang, Huan, Lv, Xiaoqing, Huang, Beiju, Cheng, Chuantong, Zhang, Zan, Zhang, Zanyun, Fang, Weihao, Zhang, Hengjie, Chen, Run, Huang, Yulong, Chen, Hongda. In Situ Regeneration of Silicon Microring Biosensors Coated with Parylene C. LANGMUIR[J]. 2022, 38(1):&nbsp504-513, http://dx.doi.org/10.1021/acs.langmuir.1c02914.[3] Zhang, Huan, Huang, Beiju, Zhang, Zanyun, Cheng, Chuantong, Zhang, Zan, Zhang, Hengjie, Chen, Run, Chen, Hongda. On-Chip Photonic Synapses Based on Slot-Ridge Waveguides With PCMs For In-Memory Computing. IEEE PHOTONICS JOURNAL[J]. 2021, 13(2):&nbsphttps://doaj.org/article/f715633c3c764d3ab24d44155520c8af.[4] Zhang, Huan, Huang, Beiju, Zhang, Zan, Cheng, Chuantong, Zhang, Zanyun, Zhang, Hengjie, Min, Chengyu, Chen, Run, Chen, Hongda. Monolithic Integration of CMOS Temperature Control Circuit and Si3N4 Microring Filters for Wavelength Stabilization Within Ultra Wide Operating Temperature Range. IEEE JOURNAL OF SELECTED TOPICS IN QUANTUM ELECTRONICS[J]. 2020, 26(2):&nbsphttps://www.webofscience.com/wos/woscc/full-record/WOS:000487051400001.[5] Cheng, Chuantong, Zhu, Cheng, Huang, Beiju, Zhang, Huan, Zhang, Hengjie, Chen, Run, Pei, Weihua, Chen, Qi, Chen, Hongda. Processing Halide Perovskite Materials with Semiconductor Technology. ADVANCED MATERIALS TECHNOLOGIES[J]. 2019, 4(7):&nbsphttps://www.webofscience.com/wos/woscc/full-record/WOS:000474669100020.[6] Cheng, Chuantong, Yang, Hongru, Huang, Beiju, Zhang, Huan, Fan, Hui, Zhang, Xingfei, Mao, Xurui, Gui, Qiang, Yang, Xiaowei, Pei, Weihua, Chen, Hongda. Performance Enhancement of Graphene Photodetectors via In Situ Preparation of TiO2 on Graphene Channels. ADVANCED MATERIALS TECHNOLOGIES[J]. 2019, 4(3):&nbsphttps://www.webofscience.com/wos/woscc/full-record/WOS:000461232400005.[7] Cheng, Chuantong, Huang, Beiju, Mao, Xurui, Zhang, Zanyun, Zhang, Zan, Geng, Zhaoxin, Xue, Ping, Chen, Hongda. Frequency conversion with nonlinear graphene photodetectors. NANOSCALE[J]. 2017, 9(12):&nbsp4082-4089, http://ir.semi.ac.cn/handle/172111/28724.[8] Cheng, Chuantong, Huang, Beiju, Mao, Xurui, Zhang, Zanyun, Zhang, Zan, Geng, Zhaoxin, Xue, Ping, Chen, Hongda. A graphene based frequency quadrupler. SCIENTIFIC REPORTS[J]. 2017, 7: http://ir.semi.ac.cn/handle/172111/28722.[9] Cheng Chuantong, Huang Beiju, Mao Xurui, Zhang Zanyun, Zhang Zan, Geng Zhaoxin, Xue Ping, Chen Hongda. Monolithic optoelectronic integrated broadband optical receiver with graphene photodetectors. NANOPHOTONICS[J]. 2017, 6(6):&nbsp1343-1352, http://ir.semi.ac.cn/handle/172111/28723.[10] Liu, Sijie, Huang, Le, Wu, Kedi, Wei, Zhongming, Huang, Beiju, Meng, Xiuqing, Tongay, Sefaattin, Liu, Jian, Li, Jingbo, Chen, Hongda. Tuned polarity and enhanced optoelectronic performances of few-layer Nb0.125Re0.875Se2 flakes. APPLIED PHYSICS LETTERS[J]. 2016, 109(11):&nbsphttp://ir.semi.ac.cn/handle/172111/27982.[11] Cheng, Chuantong, Huang, Beiju, Liu, Jialin, Zhang, Zanyun, Mao, Xurui, Xue, Ping, Chen, Hongda. A Pure Frequency Tripler Based on CVD Graphene. IEEE ELECTRON DEVICE LETTERS[J]. 2016, 37(6):&nbsp785-788, http://ir.semi.ac.cn/handle/172111/27970.[12] Mao, Xurui, Huang, Beiju, Zhang, Xu, Sun, Niefeng, Cheng, Chuantong, Gan, Sheng, Geng, Zhaoxin, Chen, Hongda. Characterization of Graphene TFET for Subterahertz Oscillator. IEEE TRANSACTIONS ON ELECTRON DEVICES[J]. 2016, 63(7):&nbsp2956-2962, http://ir.semi.ac.cn/handle/172111/27975.[13] Mao, Xurui, Huang, Beiju, Chen, Hongmei, Cheng, Chuantong, Gan, Sheng, Geng, Zhaoxin, Chen, Hongda. Graphene Field-Effect Transistor Current Source With Double Top-Gates and Double Feedback. IEEE ELECTRON DEVICE LETTERS[J]. 2015, 36(10):&nbsp1088-1090, http://ir.semi.ac.cn/handle/172111/26660.[14] Mao, Xurui, Cheng, Chantong, Huang, Beiju, Zhang, Zan, Gan, Sheng, Chen, Hongmei, Chen, Hongda. Optoelectronic Mixer Based on Graphene FET. IEEE ELECTRON DEVICE LETTERS[J]. 2015, 36(3):&nbsp253-255, http://ir.semi.ac.cn/handle/172111/26655.[15] Liu, Sijie, Huo, Nengjie, Gan, Sheng, Li, Yan, Wei, Zhongming, Huang, Beiju, Liu, Jian, Li, Jingbo, Chen, Hongda. Thickness-dependent Raman spectra, transport properties and infrared photoresponse of few-layer black phosphorus. JOURNAL OF MATERIALS CHEMISTRY C[J]. 2015, 3(42):&nbsp10974-10980, http://ir.semi.ac.cn/handle/172111/26738.[16] Zanyun Zhang, Beiju Huang, Zan Zhang, Chuantong Cheng, Hongda Chen. Monolithic Integrated Silicon Photonic Interconnect With Perfectly Vertical Coupling Optical Interface. Photonics journal, ieee[J]. 2013, 5(5):&nbsp6601711-, http://ir.semi.ac.cn/handle/172111/24642.[17] Zhang, Zan, Huang, Beiju, Zhang, Zanyun, Cheng, Chuantong, Chen, Hongda. Microwave photonic filter with reconfigurable and tunable bandpass response using integrated optical signal processor based on microring resonator. OPTICAL ENGINEERING[J]. 2013, 52(12):&nbsphttps://www.webofscience.com/wos/woscc/full-record/WOS:000329525800025.[18] Zhang, Zanyun, Huang, Beiju, Zhang, Zan, Cheng, Chuantong, Chen, Hongda. Bidirectional grating coupler based optical modulator for low-loss Integration and low-cost fiber packaging. OPTICS EXPRESS[J]. 2013, 21(12):&nbsp14202-14214, http://ir.semi.ac.cn/handle/172111/24639.[19] Beiju Huang. CMOS Monolithic Optoelectronic Integrated Circuits for on-chip Optical Interconnection. Optics Communications. 2011,
科研活动
科研项目
（ 1 ）&nbsp植入式无线光接口海量神经信号传输芯片与系统研究, 主持, 国家级, 2012-01--2015-12（ 2 ）&nbsp石墨烯与CMOS电路单片集成高速光接口芯片研究, 主持, 国家级, 2017-01--2020-12（ 3 ）&nbsp与CMOS 兼容的无源光电子材料与器件研究, 主持, 国家级, 2016-07--2019-06（ 4 ）&nbsp可见光无线传输技术体制与测试技术, 参与, 国家级, 2013-01--2015-12（ 5 ）&nbsp高灵敏度红外和氢气探测用纳米材料及器件研制, 参与, 国家级, 2013-01--2015-12（ 6 ）&nbsp可集成的硅基光互连技术研究, 参与, 国家级, 2012-01--2015-12（ 7 ）&nbsp宽光谱高响应度纳米结构探测器与CMOS电路集成, 主持, 国家级, 2018-05--2023-04
参与会议
（1）An Integrated Smart Temperature Control System for Microring Resonators 2018-07-09（2）Novel RF devices and optoelectronic devices based on graphene 黄北举 2018-02-04
指导学生
现指导学生陈润 硕士研究生 080903-微电子学与固体电子学 黄宇龙 硕士研究生 080903-微电子学与固体电子学
2013 中国科学院大学，网络信息中心.