fanjihui

Lab Master

E-Mail:   fanjihui@sdu.edu.cn

Personal Profile

Personal Experience

  • 2014.06 -- 2014.09

    中芯国际(SMIC)  , PIE工程师 , 从事BEOL后段铜互连工艺研究(28nm制程)

  • 2015.07 -- 2017.12

    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

  • 2017.12 -- Now

    山东大学集成电路学院 

Teaching Information

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

Research Direction

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。

  1. 国家自然科学基金委员会,面上项目,8-羟基喹啉金属配合物混合晶体的物理性质研究

  2. 载波通信芯片技术研究

  3. 电网高次谐波对智能断路器的影响关键技术研究

  4. 基于小样本的输变电行为分析的关键技术研究

  5. 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

  6. 省科技厅,省部级面上基金,基于有机激基复合物的自旋发光二极管器件基础研究

Research Project

Project Name Project Cycle

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

Main Papers

【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 Works

Patent Name Introduction Date

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

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