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成果及论文

1、论文、专著及教材

2022

[83] Yunfan Li, Xuanqi Guo, Shuai Wang, Shizhuo Zhang, Yilin Zhao, Dingyi Guo, Chen Zhang, Sheng Liu, Gary J. Cheng, Feng Liu*. High-efficiency copper removal by nitrogen plasma-assisted picosecond laser processing. Micromachines, 2022. (IF = 3.5)

[82] Yunfan Li, Xuanqi Guo, Shuai Wang, Yilin Zhao, Chen Zhang, Sheng Liu, Gary J. Cheng, Feng Liu*. High-precision and high-efficiency copper removal by femtosecond laser in mixed hydrochloric acid‑oxygen atmosphere. Journal of Manufacturing Processes, 2022. (IF = 5.7)

[81] Lingfeng Wang, Chen Zhang, Liu Feng, Huai Zheng, Gary Cheng. Ultrafast pulsed laser stealth dicing of 4h-sic wafer: structure evolution and defect generation. Journal of Manufacturing Processes, 2022. (IF = 5.7)

[80] Shifeng Li, Lijun Ma, Leiyang Wang, Xiao Lei, Bang Wu, Gary Cheng, Liu Feng*. High power 10-18 ghz monolithic limiter based on gaas p-i-n technology. IEEE Microwave and Wireless Components Letters, 2022. (IF = 2.7)

[79] Xinhua Ming, Liu Feng, Yong Chen, Ming Chen, Yan Zhang, Bin Liu, Xujing Wang, Zhengguang Sun, Rik Pan, Keyu Zheng, Ying Dai, Zhao Deng, Xiyun He, Wanqiang Cao, Shimin Wang, Longhai Wang. Elasto‐optic effect of lanthanum‐modified lead zirconate–lead titanate transparent ceramics: application in optical‐stress sensors. Advanced Optical Materials, 2022. (IF = 10.0)

[78] Lijun Ma, Xiao Lei, Xuanqi Guo, Longhai Wang, Shifeng Li, Tan Shu, Gary J. Cheng, Feng Liu*. Carbon black/graphene nanosheet composites for three-dimensional flexible piezoresistive sensors. ACS Applied Nano Materials, 2022. (IF = 6.1)

[77] Shuai Wang, Lingfeng Wang, Shizhuo Zhang, Huai Zheng, Chen Zhang, Sheng Liu, Feng Liu*, Gary J. Cheng*. A low-damage copper removal process by femtosecond laser for integrated circuits. Vacuum, 2022. (IF = 4.1)

[76]  Shifeng Li, Lijun Ma, Leiyang Wang, Xiao Lei, Bang Wu, Gary J. Cheng*,  Feng Liu*. High power 10-18 GHz monolithic limiter based on GaAs PIN  technology. IEEE Microwave and Wireless Components Letters, 2022. (IF=2.9)

[75] Tan Shu, Feng Liu,  Shuai Chen, Xingtao Liu, Chen Zhang, Gary J. Cheng. Origins of  ultrafast pulse laser-induced nano straight-lines with potential  application in detecting sub-surface defects in SiC wafer. Nanomanufacturing and Metrology, 2022. (IF=3)

[74] Xi Wu, Jun Yuan, Xuan-qi Guo, Li-jun Ma, Guo-qiang Wu, Gary J. Cheng, Yong Liu, Feng Liu*. An Ultrahigh Sensitive Flexible Piezoresistive Sensor Based on Carbonized Core-Shell Metal-Organic Framework Fe3O4@MIL-100(Fe). ACS Applied Electronic Materials, 2022. (IF=3.3)

[73] Le Wang, Song Huang, Qin-Ying Li, Li-Yun Ma, Cong Zhang, Feng Liu,  Ming Jiang, Xu Yu, Li Xu. Bioinspired three-dimensional hierarchical  micro/nano-structured microdevice for enhanced capture and effective  release of circulating tumor cells. Chemical Engineering Journal, 2022. (IF=13.273)

[72] Shifeng Li, Lijun Ma, Leiyang Wang, Bang Wu, Yuyang Cheng, Xiao Lei, Feng Liu*, and Gary J. Cheng. An Ultra-Wideband GaAs MMIC Microstrip Directional Coupler with High Directivity and very Flat Coupling. IEEE Transactions on Microwave Theory and Techniques, 2022. (1Top, IF=3.6)

[71] Guo S., Song C., Liu F., Zeng D., Yuan H., Liu X., Jiang H., and Cheng G. J., Bionic Optical Leaf for Photoreduction of CO2 from Noble Metal Atom Mediated Graphene Nanobubble Arrays. ACS nano, 2022. (IF=15.881)

[70] Xuanqi Guo, Lijun Ma, Weiguang Wu, Shifeng Li, Xiao Lei, Xi Wu, Xu Yu, Feng Liu*. Ultra-Sensitive Flexible Piezoresistive Pressure Sensor Prepared by Laser-Assisted Copper Template for Health Monitoring. Sensors and Actuators A-Physical, 2022. (IF=3.4)

2021

[69] Xiao Lei, Lijun Ma, Yunfan Li, Yuyang Cheng, Gary J. Cheng, Feng Liu*. Highly sensitive and wide-range flexible pressure sensor based on carbon nanotubes-coated polydimethylsiloxane foam. Materials Letters, 2021. (IF=3.423)

[68] Jun Yuan, Xiao Lei, Chenqi Yi, Haoqing Jiang, Feng Liu*,  Gary J. Cheng. 3D-printed hierarchical porous cellulose/alginate/carbon  black hydrogel for high-efficiency solar steam generation. Chemical Engineering Journal, 2021. (1top, IF=13.273)

[67] Shuai Wang, Yaoyu Wang, Shizhuo Zhang, Lingfeng Wang, Shuai Chen, Huai Zheng, Chen Zhang, Sheng Liu, Gary J. Cheng*, Feng Liu*.  Nanoscale precision removal of copper in integrated circuits based on a  hybrid process of plasma oxidation and femtosecond laser ablation. Micromachines, 2021. (IF=2.9)

[66] Lijun Ma, Lei Xiao, Shifeng Li, Shuailong Guo, Jun Yuan, Xiaotian Li, Gary J. Cheng, and Feng Liu*. A Flexible Piezoresistive Sensor Based on 3D Surface-filled Graphene Nanosheets Conductive Layer. Sensors and Actuators A-Physical, 2021. (IF=3.4)

[65] Lei Tong, Zhuiri Peng, Runfeng Lin, Zheng Li, Yilun Wang, Xinyu Huang, Kan-Hao Xue, Hangyu Xu, Feng Liu,  Hui Xia, Peng Wang, Mingsheng Xu, Wei Xiong, Weida Hu, Jianbin Xu,  Xinliang Zhang, Lei Ye, Xiangshui Miao. 2D materials–based homogeneous  transistor-memory architecture for neuromorphic hardware. Science, 2021. (1top, IF=47.728)

[64] Chunpeng Song, Huanrui Yang, Feng Liu,  Gary J. Cheng. Ultrafast Femtosecond Pressure Modulation of Structure  and Exciton Kinetics in 2D Halide Perovskites for Enhanced Light  Response and Stability. Nature Communication, 2021. (1top, IF=14.919)

[63] Huanrui Yang, Chunpeng Song, Tiancheng Xia, Shifeng Li, Dingyue Sun, Feng Liu*, Gary J. Cheng. Ultrafast Transformation of PbI2  in Two-Step Fabrication of Halide Perovskite Film for Long-Term  Performance and Stability via Nanosecond Laser Shock Annealing. Journal of Materials Chemistry C, 2021. (1top, IF=7.393)

[62] Lijun Ma, Ye Gao, Shifeng Li, Xiao Lei, Xiaotian Li and Feng Liu*.  Flexible piezoresistive sensors with 3D CB/graphene conductive  networks. 2021 5th IEEE Electron Devices Technology & Manufacturing  Conference (EDTM), 2021, pp. 1-3.

[61] Lijun Ma, Tiancheng Xia, Rui Yu, Xiao Lei, Jun Yuan, Xiaotian Li*, Gary J. Cheng*, Feng Liu*. A 3D-printed, sensitive, stable and flexible piezoresistive sensor for health monitoring. Advanced Engineering Materials, 2021. (IF=3.8)

[60] Shifeng Li, Kewen Zhu, Lijun Ma, Bang Wu, Wanghui Zou and Feng Liu*. A RF Integrated Transformer with Fe3O4 Nanoparticles Film. 2021 5th IEEE Electron Devices Technology & Manufacturing Conference (EDTM), 2021, pp. 1-3.

[59] 陈志伟, 李世峰, 刘锋*. 基于改进Otsu算法的芯片识别分类系统[J]. 微电子学与计算机, 38(4):5.

[58] Jianguo Zhao, Chen Zhang, Feng Liu,  Gary J. Cheng. Understanding Femtosecond Laser Internal Scribing of  Diamond by Atomic Simulation: Phase Transition, Structure and Property. Carbon, 2021. (1top, IF=9.594)

[57] Shuailong Guo, Hao Yuan, Feng Liu,  Wei Luo, Bingjie Li, Yue Yang, Haoqing Jiang and Gary J. Cheng. Silver  Nanowires Interlocked Graphene Aerogel for Ultra-high Efficient Clearage  of Oil Pollution on Water. Sustainable Materials and Technologies, 2021. (1top, IF=7.053)

[56] Jun Yuan, Chenqi Yi, Haoqing Jiang, Feng Liu*, Gary J. Cheng. Direct  Ink Writing of Hierarchically Porous Cellulose/Alginate Monolithic  Hydrogel as Highly Effective Adsorbents for Environmental Applications. ACS Applied Polymer Materials 2021. (IF=4.5)

[55] Tiancheng Xia, Rui Yu, Jun Yuan, Chenqi Yi, Lijun Ma, Feng Liu*, Gary J. Cheng*. Ultrahigh sensitivity flexible pressure sensors based on 3D-printed hollow microstructures for electronic skins. Advanced Materials Technologies 2021. (IF 7.8)

[54] Kewen Zhu, Haobing Chen, Shifeng Li, Chengliang Sun, Feng Liu*. A RF On-chip Transformer with Fe3O4/GO Nanocomposite Film. IEEE Transaction on Magnetics, 2021. (IF 1.63)

[53] Longhai Wang, Yunyi Wu, Feng Liu,  Shimin Wang, Wanqiang Cao, Ruikun Pan, Zhengguang Sun, Keyu Zheng, Ming  Chen, Beibei Yang, Xinghua Ming, Xiyun He. Investigating the  antiferroelectric-ferroelectric phase switching time in  lanthanum-modified lead zirconate titanate transparent ceramics. Journal of the European Ceramic Society, 2021. (1top IF 4.495)

[52]   Rui Wei, Beibei Yang, Xinghua Ming, Shimin Wang, Wanqiang Cao, Ruikun Pan, Keyu Zheng, Zhengguang Sun, Feng Liu, Xiyun He, Longhai Wang. Measurement of electro-optical coefficients based on the Stokes vectors. Measurement, 2021, 167, 108287. (IF 3.364)

2020年:

[51] Chunpeng Song, Huanrui Yang, Feng Liu,  Lei Ye,* and Gary J. Cheng, Quantum Dot Enabled Perovskite Thin Film  with Enhanced Crystallization, Stability, and Carrier Diffusion via  Pulsed Laser Nanoengineering. Advanced Materials Interfaces, 2020, 202001021. (IF 7.8)

[50]   Shuailong Guo, Hao Yuan, Wei Luo, Xiaoqing Liu, Xiantao Zhang, Haoqing Jiang, Feng Liu* and Gary J. Cheng. Isolated atomic catalysts encapsulated in MOF for ultrafast water pollutant treatment. Nano Research, 2020. (1top IF 8.183)

[49]   Rui Yu, Tiancheng Xia, Bang Wu, Jun Yuan, Lijun Ma, Gary J. Cheng,* and Feng Liu*, Highly Sensitive Flexible Piezoresistive Sensor with 3D Conductive Network. ACS Applied Materials & Interfaces, 2020 12 (31), 35291-35299. (1top IF 9.2)

[48]   Chunpeng Song, Lei Tong, Feng Liu*, Lei Ye, Gary J. Cheng, Addressing the Reliability and Electron Transport Kinetics in Halide Perovskite Film via Pulsed Laser Engineering. Advanced Functional Materials, 2020, (30), 5: 1906781. (1top IF 16.836)

2020年以前:

[47]  Hao Wang, Sheng Chang,Jin He, Qijun Huang and Feng Liu*Dielectric Engineering With the Environment Material in 2-D Semiconductor Devices, IEEE Journal of the Electron Devices Society, 2018, 6, pp. 325-331.

[46]   Bihong Zhan, Sheng Liu, Dan Su, Guoping Wang and Feng Liu*, Wearable near-field communication antennas with magnetic composite films. AIP Advances, 2017, 7(6): 065313.

[45]   Feng Liu, Shuangli Ye, YIG Thin Film for RF Integrated Inductor, Journal of Wuhan University of Technology-Materials Science Edition2017.

[44]  Hao Wang, Sheng Chang,Jin He, Qijun Huang and Feng Liu*The Dual Effects of Gate Dielectric Constant in Tunnel FETs, IEEE Journal of the Electron Devices Society, 2016, 4, pp. 445-450.

[43]  Zhai Min, Ye Shuangli, Liu Feng, Qi Chang, Shi Xinzhi, Wang Gaofeng, Influences of Co Doping Effect on the Structural Properties of a Single Graphene Film, Journal of Nanoscience and Nanotechnology, 2016, 16(1): 1018-1021

[42]   Liu Feng,  Wang Guoping, Pal Kaushik, Zhan Bihong, Shen Liu, Ding wen, Ye  Shuangli, Flexible polymer dispersed liquid crystal module with graphene  electrode, Journal of Nanoscience and Nanotechnology, 2015, 15(12): 9829-9833

[41]  Feng Liu, Honghua Huang, Ying Zhang, Ting Yu, Cailei Yuan, Shuangli Ye, Shell thickness-dependent strain distributions of confined Au/Ag and Ag/Au core-shell nanoparticles, Advances in Condensed Matter Physics, 2015, 2015(6): 1-7

[40]  Zhicong Xiang, Jun Qian, Yanzhou Zhou, Feng Liu, Chang Qi, Xinzhi Shi, Gaofeng Wang, Shuangli Ye, Synthesis of quasi-core–shell Co-doped ZnO/graphene nanoparticles, Materials Letters, 2015, 161(15): 286–288

[39] Jiang Sun, Jun Qian, Min Zhai, Feng Liu, Chang Qi, Xinzhi Shi, Gaofeng Wang, Rui Xiong, Shuangli Ye, Nitrogen-tuned transition metal Co adatom embedded graphene, Chemical Physics Letters, 2015, 638: 47–51

[38]   Feng Liu, Shangli Ye, Huijin Guo, Ming Zhai, Jun Qian, Assembled β-Co(OH)2 Nanoparticles on Reduced Graphene Oxide for Enhanced Magnetism, Journal of Superconductivity and Novel Magnetism, 2014, 27: 787–791

[37]  M.Zhai, S.Ye*, Z.Xia, F.Liu, C.Qi, X.Shi, G.Wang, Local Lattice Distortion Effect on the Magnetic Ordering of the Heusler Alloy Co2FeAl0.5Si0.5 Film, Journal of Superconductivity and Novel Magnetism, 2014, 278: 1861-1865

[36]  Shuangli Ye, Honghua Huang, Cailei Yuan, Feng Liu, Min Zhai, Xinzhi Shi, Chang Qi Gaofeng Wang, Thickness-dependent strain effect on the deformation of the graphene-encapsulated Au nanoparticles, Journal of Nanomaterials, 2014, 2014: 1-6

[35]  高峰, 钱俊, 刘慧慧, 唐超群, 刘锋*. 阻聚剂对聚合物分散液晶电光性能的影响, 液晶与显示, 2013, 28(4): 495-500

[34]  李世峰,刘锋*,王高峰,叶双莉. 一种新型MEMS可调滤波器的设计, 微纳电子技术, 2010, 11: 696-700

[33]  杨晨,刘锋,任天令,刘理天,冯海刚,王自惠,龙海波,于军,硅基CoZrO铁氧体磁膜结构RF集成微电感,半导体学报2005(11)163-167

[32]  F. Liu, C. Yang, T. Ren, A. Wang, J. Yu and L. Liu, NiCuZn Ferrite Thin Films grown by a sol-gel method and rapid thermal annealing, Journal of Magnetism and Magnetic Materials, 2007, 309(1): 75-79

[31]  Liu Feng, Ren Tianling, Yang Chen, Liu Litian, Yu Jun, Magnetic properties of NiCuZn ferrite thin films prepared by a sol-gel method, Journal of Wuhan University of Technology-Materials Science Edition, 2007, 22(3): 506-509

[30]  F. Liu, T. Ren, C. Yang, L. Liu, A. Wang, and J. Yu, NiCuZn Ferrite Thin Films for RF Integrated Inductors, Materials Letters, 2006, 60(11): 1403-1406

[29]  刘锋, 杨晨, 任天令, 刘理天, 于军, YIG磁性薄膜低温集成工艺的研究. 华中科技大学学报(自然版)2006344):1-4

[28]  刘锋, 杨晨, 任天令, 刘理天, 于军, 白洋, Sol-Gel法制备NiZnCu铁氧体性能的研究, 功能材料20053612):1849-1851

[27]  Qian Jun, Gao Feng*, Liu Huihui, Tang Chaoqun, Liu Feng, The color properties of a reflective CMYK Module using Polymer Dispersed Liquid Crystal (PDLC), Journal of the Society for Information Display20132112): 511-516

[26]  Ye Shuangli, Klar Limei, Ney Andreas, Ney Verena*, Kammermeier Tom, Ollefs Katharina, Liu Feng, Wang Gaofeng, Effects of the Inhomogenous Co Doping on the Magnetoresistance of Zn1−xCoxO Epitaxial Films, Journal of Nanoscience and Nanotechnology, 2012, 12(2): 1054-1058

[25]  袁海洋, 江先阳, 刘锋,王高峰. 应用于ROHCCRC算法硬件实现, 微电子学, 2011, (05)736-740

[24]  Xiaochang Liu, Gaofeng Wang*, Dexiang Deng, Feng Liu, Zhigang Tu, A New Model of On-chip Inductors on Ferrite Film Using KB-FDSMN Neural Network, International Journal of RF and Microwave Computer-Aided Engineering, 2010, 20(4): 399-406

[23]  Chen Yang, Feng Liu,  Xin Wang, Tianling Ren*, Litian Liu, Investigation of On-Chip  Soft-Ferrite-Integrated Inductors for RF ICs—Part I: Design and  Simulation,  IEEE Trans. Electron Devices, 2009, 56(12): 3133-3140

[22]  Chen Yang, Feng Liu, Xin Wang, Tianling Ren*, Litian Liu, Investigation of On-Chip Soft-Ferrite-Integrated Inductors for RF ICs—Part : Experiments, IEEE Trans. Electron Devices, 2009, 56(12): 3141-3148

[21]  杨晨,刘锋,任天令,刘理天,Albert Wang,岳振星,“Ni-Zn铁氧体颗粒-光刻胶覆盖的片上射频电感,传感技术学报2008,(02):314-317

[20]  C. Yang, F. Liu, T. Ren*, L. LiuA. Z. Wang*, Ferrite-integrated on-chip inductors for RF ICs, IEEE Electron Device Letters, 2007, 28(7): 652-655

[19]  Longhai WangJun YuXinyi WenYunbo WangJunxiong GaoFeng LiuTianling RenAn Innovated Process of Pt/PbTiO3/PbZr0.3Ti0.7O3/PbTiO3/Pt Integrated Ferroelectric Capacitors for FeRAMIntegrated Ferroelectrics2007893-11

[18]  Longhai WangJun YuYunbo WangGang PengFeng LiuJunxiong GaoModeling ferroelectric capacitors based on the dipole switching theoryJournal of Applied Physics2007101104505):1-7

[17]  王龙海, 于军, 刘锋, 郑朝丹, 李佳, 王耘波, PT/PZT/PT铁电薄膜的铁电畴和畴壁, 物理学报, 2006, 55(5): 2590-2595

[16]  张帆,杨晨,刘锋,任天令,刘理天,片上射频磁介质电感的设计与仿真,传感技术学报2006,(05):1934-1937

[15]  杨晨,刘锋,任天令,刘理天,面向RFIC的片上铁氧体磁膜电感,传感技术学报2006, 19 (05): 1930-1933

[14]  Jun YuLonghai WangYunbo WangGang PengFeng LiuJunxiong GaoA compact model for the simulation of ferroelectric capacitorIntegrated Ferroelectrics20067535-45

[13]  Longhai WangJun YuXin’yi WenJunxiong GaoFeng LiuChaogang WeiTianling RenFerroelectric properties of Pt ∕ Pb Ti O 3 ∕ Pb Zr 0.3 Ti 0.7 O 3/Pb Ti O 3 /Pt integrated capacitors etched in noncrystalline phaseApplied Physics Letters200689182901):1-4

[12]  T. Ren, C. Yang, F. Liu, L. Liu, A. Z. Wang* X. Zhang, Equivalent Circuit Analysis of an RF Integrated Inductor with Ferrite Thin-Film, Chinese Journal of Semiconductors, 2006, 27(3): 511-515

[11]  C. Yang, F. Liu, T. Ren*, L. Liu, H. Feng, A. Wang* H. Long, Fully Integrated Ferrite-Based Inductors for RF ICs, Sensors & Actuators: A. Physical, 2006, 130-131: 365-370

[10]  C. Yang, F. Liu, T. Ren*, L. Liu, H. Feng, Z. Wang, H. Long, J. Yu, RF Integrated Inductor with CoZrO Ferrite Thin Film, Chinese Journal of Semiconductors, 2005, 26: 2208-2212

[9]  王龙海, 于军, 王耘波, 彭刚, 刘锋, 高峻雄, 基于静态电滞回线的铁电电容模型, 物理学报, 2005, 54(2): 949-955

[8]  Haibo LongZhenghe FengHaigang FengAlbert WangTianling RenJunbo BaoFeng LiuChen YangXiao ZhangA new modeling technique for simulating 3-D arbitrary conductor-magnet structures for RFIC applicationsIEEE Transactions on Electron Devices, 2005, 52(7): 1354-1363

[7]  Liu Feng,  Gao Feng, Qian Jun, Tang Chaoqun: Electro-optical properties of polymer  dispersed liquid crystal doped with polymerization inhibitor, Nanophotonics, Nanoelectronics and Nanosensor, N3, 2013, Wuhan, P.R.China, 2013.5.24-2013.5.27

[6]  Feng Liu, Shuangli Ye, Shifeng Li,  Xingzhi Shi: Micro inductor for RF ICs with NiZnCu ferrite film, 2011 IEEE International conference on nano/micro engineered and molecular systems, Taiwan, 2011.2.20-2011.2.23

[5]  Liu Feng,  Yang Chen, Ren Tian Ling, Liu Li Tian, Feng Hai Gang, Albert Z Wang,  Long Hai Bo, Yu Jun, Fully integrated ferrite-based inductors for RF  ICs, IEEE Transducers’05, The 13th international conference on solid-state sensors, actuators and Microsystems, 2005, Seou, l Korea, 2005.6.5-2005.6.9

[4]  Shifeng Li, Feng Liu*, Shuangli Ye, Gaofeng Wang: The design of a novel tunable filter, 2011 IEEE International conference on nano/micro engineered and molecular systems, Taiwan, 2011.2.20-2011.2.23

[3]  C. Yang, F. Liu, T. Ren*, L. Liu, G. Chen, X. Guan, Albert Wang*, Z. Yue, Ni-Zn Ferrite Film Coated on-Chip RF Inductor Fabricated by A Novel Powder-Mixed-Photoresist Coating Technique, 2007 IEEE International Electron Devices Meeting (IEDM), 2007, Washington, D.C., USA, 2007.12.10-2007.12.13

[2]  C. Yang, F. Liu,  T. Ren*, L. Liu, A. Z. Wang*, NiZn Ferrite Film Coated on-Chip RF  Inductor Fabricated by A Novel Powder-Mixed-Photoresist Coating  Technique, 2007, IEEE MTT-S International Microwave Symposium Digest, 2007, Honolulu. HI, USA, 2007.6.3-2007.6.8

[1]  C. Yang, T. Ren*, F. Liu, L. Liu A. Z. Wang*, On-Chip Integrated Inductors with Ferrite Thin-Films for RFIC, 2006 IEEE International Electron Devices Meeting (IEDM), 2006, San Francisco, USA, 2006.12.10-2006.12.13

2、授权发明专利

[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,ZL201310002569.7

[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, ZL201410792370.3

[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,ZL201410791872.4

[6] 电控光散射材料与器件时域响应特性测试方法,2015.11ZL201510769572.0

[7] 低导通电阻VDMOS器件及制备方法,2014.12ZL201410745311.0

[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