创造、创新、创业

Creation, innovation and Entrepreneurship

副高级专业技术职称

刘锋

分类:院内新闻 作者: 来源: 时间:2023-11-13 访问量:


一、个人基本情况

姓名: 刘锋

职称:副教授、博导

E-mailfengliu@whu.edu.cn


二、教育及工作经历
1992.9—1996.7  武汉水利电力大学(现武汉大学)机械工程系,学士

1998.9—2001.7 华中科技大学,机械设计系,硕士

2001.9—2005.7 华中科技大学,电子科学与技术系,博士

2005.9—2008.3  清华大学,微电子研究所,博士后

2008.5—2014.5 武汉大学,微电子与信息技术研究院,教师

2014.5—至今 武汉大学,动力与机械学院,机械工程系,教师


三、主要研究方向

微机电系统及纳米机器人、柔性传感器/可穿戴电子、射频通信芯片、先进制造方法(激光制造、3D打印、芯片制造)

四、代表性论文

长期从事射频通信芯片、柔性器件和微机电系统的研究,在ScienceNature MaterialsNature CommunicationsAdvanced MaterialsACS NanoAdvanced Functional MaterialsIEEE MTTIEEE TEPIEEE EDLIEEE TED等国际知名期刊发表SCI论文100余篇,在IEDMTransducerIEEE MTT-S等国际知名会议上发表学术论文10余篇。

近期代表作:

2024

[117] Longju Yi, Yilin Zhao, Yunfan Li, Dingyi Guo, Ziran Zeng, Zhe Liu, Huai Zheng*, Gary J. Cheng*, Feng Liu*. Intelligent Cobweb Structures for All-in-One Flexible Devices via Laser Thermal Printing. Advanced Functional Materials, 2024. (1TopIF=18.5)

[116] Yaoyu Wang, Chenqi Yi, Wenxiang Tian, Feng Liu, Gary J. Cheng*. Nanoscale Metal and Alloy 3D Spatial Direct Writing Enabled by Two-Photon Decomposition and Ultrafast Optical Trapping. Nature Materials, 2024. (1Top, IF=37.2)

[115] Yunfan Li, Ziran Zeng, Shizhuo Zhang, Dingyi Guo, Peilong Li, Xiao Chen, Longju Yi, Huai Zheng*, Sheng Liu*, Feng Liu*. Highly efficient laser bidirectional graphene printing: integration of graphene synthesis, transfer and patterning. Small, 2024. (1Top, IF=13)

[114] Yunfan Li, Zezhou Yang, Xiao Chen, Shizhuo Zhang, Shuqi Xu, Peilong Li, Longju Yi, Feng Liu*. Laser thermochemical synthesis of MXene/graphene heterostructure for highly sensitive flexible pressure sensor. ACS Advanced Electronic Materials, 2024. (IF=4.5)

[113] Longju Yi, Deng Wang, Yilin Zhao, Yunfan Li, Ke Lin, Longhai Wang*, Feng Liu*. A multi-electrode layout for high reliability of flexible piezoresistive sensor: one stimulus signal to three sensing signals. ACS Sensors, 2024. (1Top, IF=8.3)

[112] Shizhuo Zhang, Senglin Rao, Yunfan Li, Shuai Wang, Dingyue Sun, Feng Liu*, Gary J. Cheng*. Laser-Forged Transformation and Encapsulation of Nanoalloys: Pioneering Robust Wideband Electromagnetic Wave Absorption and Shielding from GHz to THz. International Journal of Extreme Manufacturing, 2024. (1Top, IF=14.7)

[111] Yuhang Xu, Senlin Rao, Wendi Yi, Junchao Yi, Feng Liu*, Gary J. Cheng*. Revolutionizing Protective Materials: Ultrahigh Peak Viscosity through MOF-Enhanced Shear Thickening Fluid for Advanced Soft Body Armor. Applied Materials Today, 2024. (IF=8.3)

[110] Bang Wu, Ke Song, Leiyang Wang, Longju Yi, Shifeng Li, Yilin Zhao, Yunfan Li, Kewen Zhu, Yao Cai, Wanghui Zou, Feng Liu*. A Compact All-Frequency Absorptive Dual-Band Bandpass Filter with T-shaped Transmission Line Absorption Branches. AEUE - International Journal of Electronics and Communications, 2024. (IF=3.2)

[109] Bang Wu, Weiguang Wu, Rui Ma, Haobing Chen, Xuanqi Guo, Yilin Zhao, Yunfan Li, Xiao Lei, Feng Liu*. High-sensitivity and wide-range flexible ionic piezocapacitive sensors with porous hemisphere array electrodes. Sensors, 2024. (IF=3.9)

[108] Yunfan Li, Xiao Lei, Dingyi Guo, Yilin Zhao, Ziran Zeng, Longju Yi, Peilong Li, Feng Liu*, Tianling Ren*. Laser-induced skin-like flexible pressure sensor for AI speech recognition. ACS Applied Materials & Interfaces, 2024. (1Top, IF=9.5)

[107] Dingyi Guo, Xiao Lei, Haobing Chen, Longju Yi, Yunfan Li, Yilin Zhao, Feng Liu*, Gary J. Cheng*. Highly Flexible and Sensitive Pressure Sensor: Fabrication of Porous PDMS/Graphene Composite via Laser Thermoforming. Advanced Sensor Research, 2024.

2023

[106] Rui Ma, Yilin Zhao, Haobing Chen, Ziran Zeng, Yunfan Li, Ruiyuan Wang, Feng Liu*. Highly sensitive flexible piezocapacitive sensor with porous hierarchical structure prepared by a microwave curing method. Advanced Engineering Materials, 2023. (IF=3.6)

[105] Shizhuo Zhang, Jun Yuan, Shuai Wang, Yunfan Li, Yuhang Xu, Dingyue Sun, Feng Liu*, Gary J. Cheng*. Synergistic Multilevel Sieving Membranes: Integrating Cellular Graphene Skeleton with Continuous MOFs Nanolayer for Superior Multiphase Water Separation. Advanced Functional Materials, 2023. (1TopIF=19)

[104] Junchao Yi, Le Wan, Tan Shu, Xiaowei Zhang, Feng Liu*, Gary J. Cheng*. Unleashing Multi-Scale Mechanical Enhancement in NiTi Shape Memory Alloy via Annular Intra-Laser Deposition with Homogenized Ti2Ni Nanoprecipitates. Acta Materialia, 2023. (1TopIF=9.4)

[103] Xuanqi Guo, Yunfan Li, Ziran Zeng, Yilin Zhao, Xiao Lei, Yaoyu Wang, Dingyi Guo, Feng Liu *. Ultra-sensitive flexible pressure sensor with hierarchical structural laser-induced carbon nanosheets/carbon nanotubes composite film. Composites Science and Technology, 2023. (1TopIF=9.1)

[102] Senlin Rao, Yuhang Xu, Jun Yuan, Feng Liu, Shuai Wang, Haoqing Jiang, Gary J. Cheng*. MOFs for Ultrahigh Efficiency Pulsed Laser Micropropulsion. Advanced Materials, 2023. (1Top, IF=29.4)

[101] Yilin Zhao, Xiao Lei, Ziran Zeng, Dingyi Guo, Yunfan Li, Rui Ma, Shengnan Shen*, Feng Liu *. Highly Sensitive Flexible Pressure Sensor with Hybrid Microstructure Similar to Volcano Sponge. ACS Applied Materials & Interfaces, 2023. (1Top, IF=9.5)

[100] Ziran Zeng, Yunfan Li, Yilin Zhao, Jun Yuan, Longju Yi, Peilong Li, Gary J. Cheng, Feng Liu *. High sensitivity and wide range flexible piezoresistive sensor based on petal-shaped MOF-derived NiCo-NPC. Nanotechnology 2023. (3, IF=3.5)

[99] Yunfan Li, Ziran Zeng, Shizhuo Zhang, Longju Yi, Dingyi Guo, Yilin Zhao, Feng Liu*. Multifunctional metal-organic frameworks nanoengineered laser-induced graphene for health electronics. Chemical Engineering Journal, 2023. (1Top, IF=15.1)

[98] Dingyue Sun, Ming Peng, Longju Yi, Shizhuo Zhang, F Liu*, GJ Cheng*, Leflunomide: A Versatile Additive for Defect Reduction, Enhanced Optoelectronic Properties and Environmental Stability of Perovskite Films, Nano Research, 2023.1TopIF=9.9

[97] Tan Shu, Nan Hu, Feng Liu*, Gary J. Cheng*. Nanoparticles induced intragranular and dislocation substructures in powder bed fusion for strengthening of high-entropy-alloy. Materials Science and Engineering A, 2023. (1topIF=6.044)

[96] Haobing Chen, Diying Guo, Xiao Lei, Weiguang Wu, Xuanqi Guo, Yunfang Li, Xiaohong Weng, Sheng Liu*, Feng Liu*. One-step laser direct-printing process of hybrid microstructure for highly sensitive flexible piezocapacitive sensor. ACS Applied Materials & Interfaces, 2023. (1Top, IF=9.5)

[95] D Sun, J Yuan, T Wang, M Peng, S Zhang, S Rao, F Liu*, GJ Cheng*. Enhanced performance in perovskites films by defect engineering and charge carrier transportation via pulsed laser doping of 2D MoS2. Sustainable Materials and Technology, 2023.1区,IF=9.6

[94] Xiao Lei, Dingyi Guo, Sinan Yu, Yiling Zhao, Yunfan Li, Longju Yi, Lei Ye, Feng Liu*. Highly sensitive, ultrawide range and multimodal flexible pressure sensor with hierarchical microstructure prepared by a one-step laser printing process. Advanced Materials Technologies 2023. (2区,IF= 8.8).

[93] Shifeng Li, Leiyang Wang, Bang Wu, Dingyi Guo, Yunfan Li, Yilin Zhao, Gary J. Cheng*, Feng Liu*. High Power X-band Monolithic GaAs PIN Balanced Limiter. IEEE Transaction of Power Electronics, 2023. (1TopIF=5.967)

[92] Shizhuo Zhang, Haoqing Jiang, Shuai Wang, Jun Yuan, Wendi Yi, Lingfeng Wang, Xiaowei Liu*, Feng Liu*, Gary J. Cheng*. Epidermal Patch with Biomimetic Multistructural Microfluidic Channels for Timeliness Monitoring of Sweat. ACS Applied Materials & Interfaces, 2023. (1Top, IF=10.38)


五、著作、教材及专利等成果

[1] 无阀薄膜驱动型微泵,2003.9.17,中国,ZL03118917.2

[2] 一种基于PDLC柔性显示模块的制备方法,2013.4.10,中国,ZL201310002541.3

[3] 一种基于双层PDLC印刷型柔性显示模块的制备方法,2013.4.10,中国,ZL 201310002569.7

[4] 一种在基片水平方向可控生长碳纳米管束的方法,2016.4.13,中国, ZL 201410792370.3

[5] 一种在基片水平方向可控生长碳纳米管束的方法,2016.4.13,中国,ZL 201410791872.4

[6] 电控光散射材料与器件时域响应特性测试方法,2015.11ZL 201510769572.0

[7] 低导通电阻VDMOS器件及制备方法,2014.12ZL 201410745311.0

[8] 一种石墨烯片上可调电感及其制造方法,2016.4ZL 201610285163.8

[9] 一种石墨烯复合膜片上电感,2016.5ZL 201610355178.7

[10] 一种基于激光与等离子体的复合抛光方法,2018.11ZL201811504867.5

[11]  电控光散射材料与器件时域响应特性测试方法,2019,9ZL201510769572.0

[12] 基于STDP非监督学习算法的硬件友好型脉冲神经网络模型,2020.2ZL201710222912.7

[13] 基于石墨烯动态电感的磁传感器,2020.11ZL201910034874.1

[14] 一种双脉冲激光隐形切割的方法,2021.3ZL201911402593.3

[15] 一种自动化制钵机,2021.3ZL201910595380.0

[16] 一种高性能小型化定向耦合器芯片,2021.11ZL 2020115487275.1

[17] 一种双层式柔性压力传感器及其制备方法,2021.11ZL 202110011550.3

[18] 柔性压阻传感器的大规模制备方法,2022.6ZL 202110610354.8

[19] 一种可变量程电容式柔性压力传感器及其制备方法,2023.8ZL 20201627709.6

[20] 电磁场控制等离子体的激光掩膜刻蚀方法以及系统, 2023.6, ZL 201911148004.3

[21] 一种渐变PIN管阵限幅系统,2024.2ZL 202011584984.4

[22] 用于药物注射的集传感与执行功能于一体的可穿戴器件,2024.3ZL 202111133453.8

[23] 柔性基片微纳结构成型装置及柔性压力传感器加工系统,2024.1ZL202110662422.5


六、纵向科研项目

1、国家重点研发计划:超快激光高精密去除技术与装备

2、湖北省自然科学基金面上项目:等离激元增强型聚合物液晶柔性显示关键技术

3、湖北省支撑计划:印刷型柔性显示关键技术

4、国家自然科学基金面上项目:纳米磁晶与ZnCoO 外延薄膜系统中自旋与电荷相互作用机制及其应用的研究

5、国家自然科学基金面上项:纳米尺度新型MOS器件的量子模型研究

6、国家自然科学基金面上项目:面向SOC的新型片上磁介质射频电感

7湖北省创新群体项目:微传感器高密度三维异质集成关键技术研究