院工会主席
任集成电路工艺与测试公共平台主任,平台总面积约900平米,其中包括700平米的超净实验室。平台拥有一流的纳米加工设备(7 nm)和超高频测试设备(750 GHz)、完备的薄膜材料生长、分析系统和纳米器件测试系统,全面接轨国际先进水平。个人在纳米器件制作与测试等方面有多年的研究,尤其是短沟道TFT器件,高频器件等。教学方面,承担了本科生《集成电路工艺》、研究生《微纳加工工艺和测试》部分课程,参与研究生国际化课程建设等教学项目、虚拟仿真项目等。科研方面,承担国家级重点专项子课题、省基金各1项,参与国家重点研发计划、国家面上项目、省重点研发计划、省重大基础研究项目等多项科研项目。发表PNAS、IEEE EDL、TED、APL、AFM等国际期刊30余篇,专利4项。一项成果创下国际纪录,获得《中国日报》、《New electronics》等著名媒体报导。
山东大学 
山东大学 
本科生课程名称 | 学期 | 学分 | 课程号 |
---|---|---|---|
高频电子线路 |
春学期 |
2.0 |
sd04031000 |
高频电子线路 |
春学期 |
3.0 |
sd04030080 |
名称 | 简介 |
---|---|
宽禁带半导体器件及集成 |
宽禁带半导体器件及集成 |
薄膜半导体器件及微纳集成电路 |
薄膜半导体器件及微纳集成电路 |
项目名称 | 项目周期 |
---|---|
Plasma工艺技术开发 |
2023/09/01,2024/12/31 |
电路基础功能单元技术开发 |
2023/09/01,2024/12/31 |
短沟道器件技术开发 |
2023/09/01,2024/12/31 |
2T0C存储单元技术开发 |
2023/09/01,2024/12/31 |
高稳定性p型薄膜晶体管及应用 |
2023/09/01,2024/12/31 |
LTPS工艺技术开发 |
2023/09/01,2024/12/31 |
BM晶体管V2技术合作项目 |
2023/09/01,2024/12/31 |
基于薄膜IGZO和LCP的共形太赫兹智能超表面的研究 |
2023/08/24,2027/12/31 |
毫米波与太赫兹测试仪器核心芯片研制与应用示范 |
2023/02/01,2025/12/31 |
低功耗薄膜微处理器先进制造方法研究 |
2023/01/01,2025/12/31 |
FinFET量子点器件技术研究 |
2023/03/01,2025/02/28 |
基于偏振调控/能带剪裁的高效AlGaN基深紫外LED的研究 |
2022/09/07,2026/12/31 |
超短沟道器件 |
2022/03/10,2023/09/10 |
(包干项目)碳基微电子及高灵敏气体传感器研究 |
2022/03/30,2025/03/31 |
基于氧化物半导体薄膜晶体管的无电容型3D-DRAM技术项目 |
2022/03/10,2023/09/10 |
p型氧化物薄膜晶体管 |
2022/03/11,2023/06/11 |
BEOL TFT工艺技术合作项目 |
2022/03/11,2023/06/11 |
约瑟夫森结的制备与直流特性研究 |
2021/12/01,2022/03/01 |
氧化镓功率器件及模组的关键科学问题研究 |
2020/12/16,2023/12/31 |
太赫兹量子波成像技术智能安检系统的产业化应用 |
2019/01/06,2021/12/31 |
分子有机/无机异质结中电荷输运与调控研究 |
2009/01/01,2011/12/31 |
基于InGaZnO的肖特基源极薄膜晶体管的器件物理研究 |
2018/04/01,2021/07/01 |
高效柔性GaSbxAs1-x纳米线阵列太阳能电池的制作技术基础研究 |
2017/08/01,2020/06/30 |
氧迁移影响下的HfO2阻变存储器机理及其制备研究 |
2012/07/31,2015/07/31 |
可靠性综合测试系统分析软件系统的研发 |
2011/03/07,2011/03/15 |
热谱分析方法数据采集开发 |
2009/12/10,2009/12/31 |
类钙钛矿结构铋基材料的电性能调控及物性研究 |
2012/07/31,2015/07/31 |
IGBT可靠性热谱分析的应用研究 |
2011/06/01,2013/12/31 |
IGBT器件热谱分析测试系统的研究与开发 |
2011/10/26,2012/10/01 |
【1】.Graphene-Tuned, Tightly Coupled Hybrid Plasmonic Meta-Atoms. Nanomaterials , 14,2024.
【2】韩鹤程.Light-Triggered Anti-ambipolar Transistor Based on an In-Plane Lateral Homojunction. 纳米快报, 24:8602,2024.
【3】.Toward High-Peak-to-Valley-Ratio Graphene Resonant Tunneling Diodes. Nano Letters, 23:8132,2023.
【4】.A Universal Approach to Determine the Atomic Layer Numbers in Two-Dimensional Materials Using Dark-Field Optical Contrast. Nano Letters, 23:9170,2023.
【5】王萌发.Frequency Division Multiplexer With Directional Filters in Multilayer LCP Films at - and -Band. 《IEEE MICROWAVE AND WIRELESS COMPONENTS LETTERS》, 32:1287,2022.
【6】.Amorphous-InGaZnO Thin-Film Transistors Operating Beyond 1 GHz Achieved by Optimizing the Channel and Gate DimensionsIEEE Transactions on Electron Devices:1377,2018.
【7】.Narrowband SIW-SSPP Hybrid Bandpass Filter With Compact Profile at Ka-BandNarrowband SIW-SSPP Hybrid Bandpass Filter With Compact Profile at Ka-Band. IEEE Access1, 11:98305,2023.
【8】.Polarization-selective modulation of meandered-line metamaterials with graphene surface plasmonicsOptics and Lasers in Engineering:107693,2023.
【9】.Polarization-selective modulation of meandered-line metamaterials with graphene surface plasmonicsOptics and Lasers in Engineering:107693,2023.
【10】.Narrowband SIW-SSPP hybrid Bandpass Filter with Compact Profile at Ka-bandIEEE ACCESS:98305,2023.
【11】冯明明.Active metal-graphene hybrid terahertz surface plasmon polaritons. NANOPHOTONICS, 11:3331-3338,2022.
【12】王萌发.Frequency Division Multiplexer With Directional Filters in Multilayer LCP Films at E- and W-Band《IEEE MICROWAVE AND WIRELESS COMPONENTS LETTERS》,2022.
【13】张翼飞.Tunable Surface Plasmon Polaritons with Monolithic Schottky DiodesACS Applied Electronic Materials:2124,2019.
【14】周泽鹏.Flexible Liquid Crystal Polymer Technologies from Microwave to Terahertz Frequencies. Molecules, 27,2022.
【15】王震泽.Comparative Study of Short-Channel Effects Between Source-Gated Transistors and Standard Thin-Film TransistorsIEEE Transactions on Electron Devices,2022.
【16】袁玉卓.Imaging Array and Complementary Photosensitive Inverter Based on P-Type SnO Thin-Film Phototransistors. IEEE Electron Device Letters, 42:1010,2021.
【17】颜世琪.High-Performance Thin-Film IGZO Schottky Diodes With Sputtered PdOx Anode. IEEE Transactions on Electron Devices, 68:4444,2021.
【18】马鹏飞.Charge-trapping memory based on tri-layer alumina gate stack and InGaZnO channel. SEMICONDUCTOR SCIENCE AND TECHNOLOGY, 35,2020.
【19】李云鹏.Complementary Integrated Circuits Based on p-Type SnO and n-Type IGZO Thin-Film Transistors. IEEE Electron Device Letters, 24:208,2018.
【20】张翼飞.Multi frequency multi bit amplitude modulation of spoof surface plasmon polaritons by schottky diode bridged interdigital SRRsScientific Reports,2021.
【21】凌昊天.Active terahertz metamaterials electrically modulated by InGaZnO Schottky diodes. Optical Materials Express, 11:2966,2021.
【22】李虎.Photoluminescent Semiconducting Graphene Nanoribbons via Longitudinally Unzipping Single-Walled Carbon NanotubesACS Applied Materials & Interfaces,2021.
【23】张嘉炜.Extremely high-gain source-gated transistors. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 116:4843,2019.
【24】袁玉卓.Thin Film Sequential Circuits: Flip-Flops and a Counter Based on p-SnO and n-InGaZnO. IEEE Electron Device Letters, 42:62,2021.
【25】袁玉卓.SnOX-Based mu W-Power Dual-Gate Ion-Sensitive Thin-Film Transistors With Linear Dependence of pH Values on Drain Current. IEEE Electron Device Letters, 42:54,2021.
【26】凌昊天.Spoof surface plasmon polariton band-stop filter with single-loop split ring resonators. INTERNATIONAL JOURNAL OF RF AND MICROWAVE COMPUTER-AIDED ENGINEERING, 30,2020.
【27】赵帅.In Situ Growth of GeS Nanowires with Sulfur-Rich Shell for Featured Negative Photoconductivity. Journal of Physical Chemistry Letters, 12:3046,2021.
【28】马鹏飞.Charge-trapping memory based on tri-layer alumina gate stack and InGaZnO channel. SEMICONDUCTOR SCIENCE AND TECHNOLOGY, 35,2020.
【29】辛倩, 王一鸣, 周莉, 王卿璞, 宋爱民 and 杨进.Highly Optimized Complementary Inverters Based on p-SnO and n-InGaZnO with High Uniformity. IEEE Electron Device Letters, 32:516,2018.
【30】张翼飞, 宋爱民, 时彦朋, 王一鸣, 冯华钰, 辛倩 and 王卿璞.Tunable Surface Plasmon Polaritons with Monolithic Schottky DiodesACS Applied Electronic Materials,2019.
【31】王一鸣, 冯先进, 宋爱民 and 朱庚昌.Performance enhancement of AlGaN/AlN/GaN high electron mobility transistors by thermally evaporated SiO passivation. APPLIED PHYSICS LETTERS, 109:113503,2016.
【32】辛倩, 宋爱民, 王一鸣, 时彦朋 and 张翼飞.Schottky-barrier thin-film transistors based on HfO2-capped InSe. APPLIED PHYSICS LETTERS, 115,2019.
【33】王一鸣, 辛倩, 徐明升, 陈秀芳, 徐现刚, 冯先进, 宋爱民 and 朱庚昌.GaN metal-oxide-semiconductor high-electron-mobility transistors using thermally evaporated SiO as the gate dielectric. Semiconductor Science and Technology, 33,2018.
【34】宋爱民, 王一鸣, 王卿璞, 周莉, 辛倩 and 杨进.All-Oxide-Semiconductor-Based Thin-Film Complementary Static Random Access Memory. IEEE Electron Device Letters, 39:1876,2018.
【35】王一鸣, 辛倩, 宋爱民, 时彦朋, 李玉香 and 王卿璞.Amorphous-InGaZnO Thin-Film Transistors Operating Beyond 1 GHz Achieved by Optimizing the Channel and Gate Dimensions. IEEE Transactions on Electron Devices, 65:1377,2018.
【36】王一鸣, 杨再兴, 辛倩, 宋爱民 and 梁广大.Improved performance of InSe field-effect transistors by channel encapsulation. Semiconductor Science and Technology, 33,2018.
【37】宋爱民, 王一鸣, 林兆军, 周莉, 辛倩 and 李云鹏.Complementary Integrated Circuits Based on p-Type SnO and n-Type IGZO Thin-Film Transistors. IEEE Electron Device Letters, 39:208,2017.
【38】辛倩, 王一鸣, 周莉, 王卿璞, 宋爱民 and 杨进.Highly Optimized Complementary Inverters Based on p-SnO and n-InGaZnO With High Uniformity. IEEE Electron Device Letters, 39:516,2018.
【39】王一鸣, 王卿璞, 辛倩, 韩琳, 宋爱民 and 王汉斌.A Novel Thermally Evaporated Etching Mask for Low-Damage Dry Etching. IEEE Transactions on Nanotechnology, 16:290,2017.
【40】刘德胜, 王一鸣 and 高琨.F-substituent on the photoswitchable performance of diarylethenes《物理学报》,2008.
【41】刘德胜 and 王一鸣.First-principles study of the switching characteristics of the phenoxynaphthacenequinone-based optical molecular switch with carbon nanotube electrodes. Physica E, 41:474,2009.
【42】辛倩, 王一鸣, 周莉, 王卿璞, 宋爱民 and 袁玉卓.Oxide-Based Complementary Inverters With High Gain and Nanowatt Power Consumption. IEEE Electron Device Letters, 39:1676,2018.
【43】王一鸣, 辛倩, 李玉香, 宋爱民 and 马鹏飞.Low voltage operation of IGZO thin film transistors enabled by ultrathin Al2O3 gate dielectric. APPLIED PHYSICS LETTERS, 112,2018.
【44】王一鸣, 辛倩, 李玉香, 宋爱民 and 马鹏飞.High-Performance InGaZnO-Based ReRAMs. IEEE Transactions on Electron Devices, 66:2600,2019.
【45】辛倩, 王一鸣, 周莉, 王卿璞, 宋爱民 and 杨进.Highly Optimized Complementary Inverters Based on p-SnO and n-InGaZnO With High Uniformity. IEEE Electron Device Letters, 39:516,2018.
【46】王一鸣, 高琨 and 刘德胜.F-substituent on the photoswitchable performance of diarylethenes《物理学报》,2008.
【47】王一鸣 and 刘德胜.First-principles study of the switching characteristics of the phenoxynaphthacenequinone-based optical molecular switch with carbon nanotube electrodes. Physica E, 41:474,2009.
【48】宋爱民, 王一鸣, 时彦朋, 张翼飞 and 辛倩.Schottky-barrier thin-film transistors based on HfO2-capped InSeApplied physics letters,2019.
【49】王一鸣, 冯先进, 宋爱民 and 朱庚昌.Performance enhancement of AlGaN/AlN/GaN high electron mobility transistors by thermally evaporated SiO passivation. Applied physics letters, 109:113503,2016.
【50】王一鸣, 王卿璞, 辛倩, 韩琳, 宋爱民 and 王汉斌.A Novel Thermally Evaporated Etching Mask for Low-Damage Dry Etching. IEEE Transactions on Nanotechnology, 16:290,2017.
【51】王一鸣, 辛倩, 徐明升, 陈秀芳, 徐现刚, 冯先进, 宋爱民 and 朱庚昌.GaN metal-oxide-semiconductor high-electron-mobility transistors using thermally evaporated SiO as the gate dielectric. Semiconductor Science and Technology, 33,2018.
【52】王一鸣, 辛倩, 李玉香, 宋爱民 and 马鹏飞.High-Performance InGaZnO-Based ReRAMs. IEEE Transactions on Electron Devices, 66:2600,2019.
【53】辛倩, 王一鸣, 周莉, 王卿璞, 宋爱民 and 袁玉卓.Oxide-Based Complementary Inverters With High Gain and Nanowatt Power Consumption. IEEE Electron Device Letters, 39:1676,2018.
【54】宋爱民, 王一鸣, 王卿璞, 周莉, 辛倩 and 杨进.All-Oxide-Semiconductor-Based Thin-Film Complementary Static Random Access Memory. IEEE Electron Device Letters, 39:1876,2018.
【55】王一鸣 and 刘德胜.First-principles study of the switching characteristics of the phenoxynaphthacenequinone-based optical molecular switch with carbon nanotube electrodes. Physica E, 41:474,2009.
【56】王一鸣, 高琨 and 刘德胜.F-substituent on the photoswitchable performance of diarylethenes《物理学报》,2008.
【57】王一鸣, 辛倩, 李玉香, 宋爱民 and 马鹏飞.Low voltage operation of IGZO thin film transistors enabled by ultrathin Al2O3 gate dielectric. Applied physics letters, 112,2018.
【58】宋爱民, 王一鸣, 林兆军, 周莉, 辛倩 and 李云鹏.Complementary Integrated Circuits Based on p-Type SnO and n-Type IGZO Thin-Film Transistors. IEEE Electron Device Letters, 39:208,2018.
【59】辛倩, 王一鸣, 周莉, 王卿璞, 宋爱民 and 杨进.Highly Optimized Complementary Inverters Based on p-SnO and n-InGaZnO With High Uniformity. IEEE Electron Device Letters, 39:516,2018.
【60】杨再兴, 辛倩, 宋爱民 and 梁广大.Improved performance of InSe field-effect transistors by channel encapsulation. Semiconductor Science and Technology, 33,2018.
【61】辛倩, 宋爱民, 时彦朋, 李玉香, 王卿璞 and 王一鸣.Amorphous-InGaZnO Thin-Film Transistors Operating Beyond 1 GHz Achieved by Optimizing the Channel and Gate Dimensions. IEEE Transactions on Electron Devices, 65:1377,2018.
专利名称 | 简介 | 日期 |
---|---|---|
一种使用暗场光学成像技术判别二维材料层数的方法 |
2023/10/31 |