E-Mail: fanjihui@sdu.edu.cn
2015年毕业于山东大学物理学院,2014年在中芯国际(SMIC)从事BEOL后段铜互连工艺研究,芯片金属布线、金属化等;2015年至2017年在华为技术有限公司从事LTE无线MIMO、VoLTE、Turbo信道编解码等物理层算法PDSCH,HPLC载波基带芯片探究等。2017年起开始在山东大学集成电路学院任教,2022年第四届集成电路EDA设计精英挑战赛全国总决赛优胜奖,2023年带领团队赴日本京都参加iCAN 2023 国际总决赛,并获得国际优胜奖。
作为主持人或主要研究人员先后承担国家自然科学基金项目2项,山东省自然科学基金项目2项,横向课5项等。发表SCI/EI 5篇,获授权国家发明专利3项。
中芯国际(SMIC)  , PIE工程师 , 从事BEOL后段铜互连工艺研究(28nm制程)
华为技术有限公司  , 高级工程师 , 从事4G无线OFDM载波、VoLTE、电力载波通信基带芯片等
山东大学集成电路学院 
Undergraduate Course Name | Semester | Credit | Course Number |
---|---|---|---|
微电子专业基础实验(II) |
Spring Term |
1.5 |
sd04030070 |
微电子专业基础实验(II) |
Autumn Term |
1.5 |
sd04030070 |
电路基础实验 |
Spring Term |
1.0 |
sd04031300 |
电子线路课程设计 |
Spring Term |
1.0 |
sd04031080 |
高频电子线路实验 |
Spring Term |
1.5 |
sd04031190 |
传感器技术实验 |
Autumn Term |
0.5 |
sd04030230 |
数字电子技术实验 |
Autumn Term |
1.0 |
sd04030400 |
Name | Introduction |
---|---|
AI算法、AI姿态分析、电力载波芯片、NILM非侵入式负荷识别 |
曾主持或参与国家自然科学基金项目2项,山东省自然科学基金项目1项,横向课题5项等。发表SCI/EI 5篇,获授权国家发明专利3项。
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Project Name | Project Cycle |
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基于数字镜像仿真的AI边缘计算系统研究 |
2024/09/30,2025/06/20 |
多粒度数据驱动的类脑计算 SoC 芯片关键技术研究 |
|
基于RSIC-V的电力载波数字基带芯片设计 |
|
基于AI边缘计算的电力智能化识别及处理技术研究合同 |
2023/10/10,2023/12/25 |
基于AIoT物联网设备关键技术研发 |
2023/01/30,2024/01/30 |
载波通信芯片技术研究 |
2022/12/15,2024/12/15 |
双光子荧光激基复合物材料自旋调控非线性光物理过程研究 |
2022/09/07,2026/12/31 |
载波通信芯片技术研究 |
2022/06/18,2023/06/18 |
8-羟基喹啉金属配合物混合晶体的物理性质研究 |
2018/08/16,2022/12/31 |
基于小样本的输变电行为分析的关键技术研究 |
2021/05/08,2023/05/08 |
《输变电设备图像智能化预处理与视觉感知关键技术研究》所需巡检数据高效预处理及神经网络关键技术研究服务合同 |
2020/09/01,2022/12/31 |
载波通信芯片技术研究 |
|
《电网高次谐波对智能断路器的影响》关键技术研究 |
2021/05/08,2023/05/08 |
基于有机激基复合物的自旋发光二极管器件基础研究 |
2018/04/01,2021/07/01 |
【1】.Research on optimization model based on heliostat field,2023.
【2】刘成浩.Dynamics of electron-hole pairs in interface exciplex OLEDs investigated by magnetic field effects. Organic electronics, 128:17025,2024.
【3】刘成浩.Energy Gain and Loss Processes in OLEDs with Spacer-Separated Electron-Hole Pairs Investigated by Magnetic Field Effects. Advanced Optical Materials, 12:2302192,2024.
【4】刘成浩.Manipulation of magneto-electroluminescence from exciplex-based spintronic organic light-emitting diodesJournal of Materials Chemistry C,2023.
【5】赵伟.Improved Complementary Bootstrap Switch Based on Negative Voltage Bootstrap Capacitance,2022.
【6】杜慧恬.Ternary Exciplexes for Enhanced Two-Photon Excited Fluorescence by the Synergy Effect of Dual Reverse Intersystem Crossing Channels. JOURNAL OF PHYSICAL CHEMISTRY C, 127:350,2023.
【7】刘成浩.Manipulation of magneto-electroluminescence from exciplex-based spintronic organic light-emitting diodes. JOURNAL OF MATERIALS CHEMISTRY C, 11:11262,2023.
【8】曹超.A complementary high linearity bootstrap switch based on negative voltage bootstrap capacitorMICROELECTRONICS JOURNAL,2023.
【9】庞智勇.Two-photon excited fluorescence from ground-state charge-transfer cocrystals of acridine and 1,2,4,5-tetracyano-benzene. Dyes and pigments, 198:109965,2022.
【10】曹超.Improved Complementary Bootstrap Switch Based on Negative Voltage Bootstrap Capacitance,2022.
【11】周倩.Two-photon excited fluorescence from ground-state charge-transfer cocrystals of acridine and 1,2,4,5-tetracyano-benzene. PASSIVE COMPONENTS AND FIBER-BASED DEVICES, PTS 1 AND 2, 198,2022.
【12】戴成虎.Homogeneous Alloy-like Organic Single Crystals Based on Nonplanar 8?Hydroxyquinoline Metallic Complexes: A Novel Pathway to Supramolecular Crystals with an Arbitrarily Adjustable Stoichiometric RatioACS Applied Energy Materials:4367,2018.
【13】陈桢.Enhanced two-photon-excited fluorescence from electron donor-acceptor exciplex. PASSIVE COMPONENTS AND FIBER-BASED DEVICES, PTS 1 AND 2, 188,2021.
【14】fanjihui, pangzhiyong, hanshenghao and 戴成虎.Efficient Two-Photon Excited Fluorescence from Charge-Transfer Cocrystals Based on Centrosymmetric Molecules. Advanced Optical Materials, 7,2019.
【15】fanjihui, pangzhiyong, hanshenghao and weizhixian.Solid-to-Solid Crystallization of Organic Thin Films: Classical and Nonclassical Pathways. ACS Omega, 3:6874,2018.
Patent Name | Introduction | Date |
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一种基于人体骨骼关键点分割和列卷积的行人重识别方法 |
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一种基于加权反卷积层数改进DSSD算法的输电线目标检测方法、设备及存储介质 |