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何强 副教授

【来源: | 发布日期:2021-07-05 】

职称:副教授,硕士生导师,湖北省“楚天学者”,湖北省青托

院系:集成电路学院,微电子学系

专业方向:微电子学,微纳光电子器件

联系方式: qianghe@hust.edu.cn

ORCID:0000-0002-6252-7030

办公地点:新光电大楼(学校东大门旁)D736

学生培养及工作理念:卓越,创新,开放,协同

热烈欢迎学有余力,热爱科研的优秀本科生加入参与科研创新,欢迎推免同学联系,一起探索未知,解决“卡脖子”问题。

个人简介:

何强,华中科技大学集成电路学院副教授,入选湖北省“楚天学者”,湖北省青年科技人才晨光托举工程。本科和博士分别于2013年和2018年毕业于华中科技大学,获微电子学与固体电子学博士学位,博士期间在牛津大学材料系联合培养。毕业后先在华为公司担任高级工程师,并全面负责终端存储器验证测试业务,曾获得华为公司总裁个人奖、金牌团队、武研所所长奖等,目前兼任中国材料与试验标准化委员会委员。长期从事基于硫系相变材料的微纳光电子器件研究工作,研究方向包括相变存储器和相变材料可编程光子器件等。主持GF某重点项目千万级课题、GF-173基金、国家自然科学基金青年项目、省部级纵向及华为公司合作项目共11项,获批项目经费超2000万元,主持发布多项公司级标准及相变存储器测试方法团体标准,在iScience, IEEE EDL, APL等期刊上发表SCI论文26篇,已授权/受理发明专利20+项。

从企业回流高校,拥抱产业,探索新的育人方法,秉持“卓越,创新,开放,协同”的育人理念,获评校优秀班主任。与业界头部企业保持密切互动,目前已毕业研究生去向华为、中兴等企业。

工作经历:

2021年6月至 华中科技大学集成电路学院,讲师、副教授

2018年4月至2021年6月 华为终端有限公司,高级工程师,存储器测试总工

教育经历:

2017年至2018年 牛津大学,材料系,Recognised Student(CSC联合培养,Supervisor: Prof. Harish Bhaskaran)

2013年至2018年 华中科技大学微电子学与固体电子学专业,博士研究生;

2009年至2013年 华中科技大学电子科学与技术专业本科生;

学科专业/研究方向:

1、非易失存储器,包括相变存储器件设计,关键工艺研究,操作方法等

2、可编程光子器件,应用方向包括光子计算,色彩滤光片,彩色电子纸等

讲授课程

1、《信号与线性系统》,本科生专业课,大二秋季学期开设

2、《纳电子器件》(双语),本科生专业课,大三春季学期开设

2、《集成电路测试方法与实践》(卓越工程师学院校企师范课程),研究生专业课,研一秋季学期开设

3、《纳电子器件与物理》,研究生专业课,研一秋季学期开设

科研项目

1、GF某重点项目,xx器件研究,2023.12-2025.10,1150/4000万元(课题负责人,在研)

2、GF某基金项目,xx芯片技术,2023.12-2025.11,50万元(主持,在研)

3、国家自然科学基金青年项目,基于硫系相变材料的全彩色视觉神经形态器件,2024.1—2026.12, 30万元(主持,在研)

4、湖北省xx项目,无机相变光刻材料及技术研究,2023.6—2026.5,178万元(任务负责人,在研)

5、湖北省自然科学基金青年项目,非易失性多级片上光子存储器件研究,5万元(主持,在研)

6、xx公司合作项目,PCM靶材技术研究,2024.1-2025.12115万元(主持,在研)

7、北京市自然科学基金重点研究专题项目,三维垂直结构相变存储器关键技术研究,2022.10—2026.9, 300万元(课题负责人,在研)

8、国家自然科学基金面上项目,基于V/R-R新结构的忆阻器存内逻辑计算研究,2023.1—2026.12,52万元(参与,在研)

9、华为公司横向课题,PCM xx器件研究,2022.7—2023.11,180万元(主持,结项)

10、华为公司横向课题,PCM电致可重构xx器件研究,2022.12—2023.11,110万元(主持,结项)

11华为公司横向课题,***产品***研究, 2020-2022,1238万元(参与,结项

12、xx合作项目,集成电路版图开发技术项目,2023.5—2023.833.7万元(主持,结项)

13、xx合作项目,存储xx技术研究,2022.1—2022.10, 96万元(主持,结项)

学术论文:

[26] Ze-Hua Cao, Xi Wang, Rong-Jiang Zhu, Zi-Yang Liu, Ming Xu, Hao Tong, Qiang He*, Xiang-Shui Miao. Up to 60% energy saving for GST-based confined phase change memory using paired pulses RESET operation scheme[J]. Applied Physics Letters, 2024, 125(21).

[25] Ruizhe Zhao, Ke Gao, Rongjiang Zhu, Zhuoran Zhang, Qiang He, Ming Xu, Niannian Yu*, Hao Tong*, Xiangshui Miao. 650 ps SET speed in Ge2Sb2Te5 phase change memory induced by TiO2 dielectric crystal plane[J]. InfoMat, 2024: e12598.

[24] Junlin Yue, Lanqing Zou, Na Bai, Chuqian Zhu, Yunhui Yi, Fan Xue, Huajun Sun*, Shane Hu, Weiming Cheng, Qiang He, Hong Lu, Lei Ye, Xiangshui Miao. Synapse Neurotransmitter ChannelInspired AlOx Memristor with “V” Type Oxygen Vacancy Distribution[J]. Small Methods, 2024: 2301657.

[23] Rong-Jiang Zhu, Rui-Zhe Zhao, Ke Gao, Zhuo-Ran Zhang, Qiang He, Hao Tong*, Xiang-Shui Miao HighStability van Der Waals Structures of GeTe/Sb2Te3 Superlattices for 100× Increased Durability PhaseChange Memory (PCM) by LowTemperature Atomic Layer Deposition. Advanced Functional Materials, 2024: 2408897.

[22]Yufan Wang,Chuqian Zhu, Huajun Sun*, Wenlin Wang, Lanqing Zou, Yunhui Yi, Jiyang Xu, Jiawang Ren, Sheng Hu, Lei Ye, Weiming Cheng, Qiang He, Xiangshui Miao, Phase transition kinetics and sublayer optimization of HfO2/ZrO2 superlattice ferroelectric thin films. Applied Physics Letters, 2024, 125(8).

[21]Shuo Deng, Mengxi Cui, Jingru Jiang, Chuang Wang, Zengguang Cheng, Huajun Sun, MingXu, Hao Tong, Qiang He* and Xiangshui Miao. Reconfigurable and Polarization‐Dependent Optical Filtering for Transflective Full-Color Generation Utilizing Low-loss Phase-Change Materials, Journal of Semiconductors, 2024 (Invited)

[20]Jian Xia, Zixuan Wang, Rui Yang, Tianci Wang, Junjie Gong, Yunxiao Dong, Zhiyuan Li, Jiaping Yao, Qiang He, Xiaomin Cheng, Zengguang Cheng, Peng Zhou, Xiangshui Miao. Ultrahigh Endurance and Extinction Ratio in Programmable Silicon Photonics Based on a Phase Change Material with ITO Heater[J]. Laser & Photonics Reviews, 2024: 2300722.

[19] Prabhathan, P., Sreekanth, K.V., Teng, J., Ko, J.H., Yoo, Y.J., Jeong, H.-H., Lee, Y., Zhang, S., Cao, T., Popescu, C.-C., Mills, B., Gu, T., Fang, Z., Chen, R., Tong, H., Wang, Y., He, Q., Lu, Y., Liu, Z., Yu, H., Mandal, A., Cui, Y., Ansari, A.S., Bhingardive, V., Kang, M., Lai, C.K., Merklein, M., Müller, M.J., Song, Y.M., Tian, Z., Hu, J., Losurdo, M., Majumdar, A., Miao, X., Chen, X., Gholipour, B., Richardson, K.A., Eggleton, B.J, Sharda, K., Wuttig, M., Singh, R., Roadmap for Phase Change Materials in Photonics and Beyond, ISCIENCE (2023), doi: https://doi.org/10.1016/ j.isci.2023.107946.

[18] Changying Xiong, Zhe Yang, Jiahao Shen, Feiyu Tang, Qiang He, Yi Li, Ming Xu*, and Xiangshui Miao Nano t-Se Peninsulas Embedded in Natively Oxidized 2D TiSe2 Enable Uniform and Fast Memristive switching[J]. ACS Applied Materials & Interfaces, 2023.

[17] Hui Y, Lu J, Jiang H, Lin W, Dong C, Dong K, He Q and Miao X. Perpendicular antiferromagnetic ordering and canted spins in van der Waals FePS3 probed by spin Hall magnetoresistance[J]. Journal of Physics D: Applied Physics, 2023, 56(7): 075001.

[16] Chong Meng, Ying Zeng, Dunzhu Lu, Hongyuan Zou, Junqin Wang, Qiang He, Xiaosheng Yang*, Ming Xu, Xiangshui Miao, Xinliang Zhang, Peining Li*. Broadband hyperbolic thermal metasurfaces based on plasmonic phase-change material In3SbTe2. Nanoscale. 2023, DOI: 10.1039/D2NR07133A.

[15] Ying Zeng, Junqin Wang, Xiaosheng Yang, JianquanYao, Peining Li*, Qiang He, Ming Xu, Xiangshui Miao. Broadband and ultrafast terahertz modulation with GeTe thin films. Optical Materials, 2023, 136: 113447.

[14]       Qingshan Tan, Yahui Chang, Qiang He*, Hao Tong*, Xiangshui Miao. Enhanced Stretchability towards Flexible and Wearable Reflective Display Coating using Chalcogenide Phase Change Materials. Optics Express. (2022) https://doi.org/10.1364/OE.464011

[13]       Xinyan Zhang, Zhipeng Tan*, Dan Feng, Qiang He*, Ju Wan, Hao Jiang, Ji Zhang, Lihua Yang and Wenjie Qi. Multidimensional Features Helping Predict Failures in Production SSD-Based Consumer Storage Systems. Design, Automation and Test in Europe Conference -DATE 2023

[12]       Yajuan Hui*, Hui Jiang, Fei Xie, Weinan Lin*, Chao Dong, Kaifeng Dong, Qiang He, Xiangshui Miao. Maximizing spin Hall magnetoresistance in heavy metal/crystalline metallic ferromagnet multilayers with opposite spin Hall angles. Nanoscale. (2022) https://doi.org/10.1039/D2NR02306G

[11]       Zhe Yang, Dayou Zhang, Jingwei Cai, Chuantao Gong, Qiang He, Ming Xu, Hao Tong*, and Xiangshui Miao. Joule heating induced non-melting phase transition and multi-level conductance in MoTe2 based phase change memory. Appl. Phys. Lett. 121, 203508 (2022)

[10]       Li Li, Zoupai Zhou, Na Bai, Tao Wang, Kan-Hao Xue, Huajun Sun*, Qiang He, Weiming Cheng, Xiangshui Miao. Naive Bayes classifier based on memristor nonlinear conductance. Microelectronics Journal, 2022: 105574.

[9]       Bokai Zhang, Peng Zhao, Xiaomin Cheng*, Qiang He, Ming Xu & Xiangshui Miao, A Superlattice Interfacial Phase Change Material with Low Power Consumption, J. Electron. Mater. (2022).

[8]       Qiang He, Zhiyuan Liu, Yitao Lu, Guoxun Ban, Hao Tong*, Yi Wang*, Xiangshui Miao, Low-loss ultrafast and non-volatile all-optical switch enabled by all-dielectric phase change materials, iSCIENCE (2022), 25(6): 104375.doi: https://doi.org/10.1016/j.isci.2022.104375.

[7]       Xin Li, Qiang He*, Hao Tong* and Xiangshui Miao, Resistance Drift-reduced Multilevel Storage and Neural network Computing in Chalcogenide Phase Change Memories by Bipolar Operation, IEEE Electron Device Letters, 2022, 43(4): 565-568. doi: 10.1109/LED.2022.3154440.

[6]       Qiang He, Nathan Youngblood, Zengguang Cheng, Xiangshui Miao and Harish Bhaskaran “Dynamically Tunable Transmissive Color Filters using Ultra-thin Phase Change Materials”, Optics Express, 28:39841-39849 (2020)

[6]       Qiang He and Harish Bhaskaran “Dynamically tunable color filters based on Phase change materials” The 3rd Wearable and Flexible Technology (WAFT) conference. October 5-6, 2017, Oxford, U.K. (POSTER)

[5]       H. Tong, F. Lan, Y. J. Liu, L. J. Zhou, X. J. Wang, Q. He, K. Z. Wang and X. S. Miao*, Positive dependence of thermal conductivity on temperature: the contribution of electronic and particle wave lattice thermal conductivity, J. Phys. D: Appl. Phys.50 (35), 355102, 2017.

[4]       Qiang He, Zhen Li, Chang Liu, Xiang-ru Meng, Ju-hong Peng, Zhi-bo Lai, and Xiang-shui Miao, 'Temperature Dependence of SET Switching Characteristics in Phase-Change Memory Cells', Journal of Physics D: Applied Physics, 49 (2016), 385101.

[3]       Teng Luo, Zhen Li, Qiang He, and Xiangshui Miao, 'Pr-Based Metallic Glass Films Used as Resist for Phase-Change Lithography', Optics Express, 24 (2016), 5754.

[2]       Wei Zhou, Zhen Li, Qiang He, and Xiang-shui Miao, 'Modeling of Transient Thermal Dissipation of Nanoscale Phase-Change Memory Cells in the Pulse Domain', International Journal of Heat and Mass Transfer, 94 (2016),301-05.

[1]       Qiang He, Zhen Li, Jvhong Peng, Yufan Deng, Bijian Zeng, Wei Zhou and Xiangshui Miao. Continuous controllable amorphization ratio of nanoscale phase change memory cells. Applied Physics Letters, 104(22), (2014) 223502.

已授权专利:

[3]一种基于相变材料的电可控彩色滤光阵列及人工视觉系统,国家发明专利,ZL 2022 1 1330132.1

[2]一种脉宽可调的脉冲电压发生装置,国家发明专利,2022105320867

[1]一种精确控制微纳尺寸相变材料非晶化率连续变化的方法,国家发明专利,ZL 201310698161.8