邵艳群

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发布时间:
2023-11-15
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教师姓名

邵艳群

学科

材料科学与工程

邵艳群 一寸照片

联系方式

电话:13960826600

E-mailyqshao@fzu.edu.cn

个人主页:

个人简历

1989.9~1993.7  在bet356官网手机app机械系金相专业攻读本科,获学士学位

1993.8~1995.8  在浙江萧山金龟模具有限公司任技术科科员,助工

1995.9~1998.6  在bet356官网手机app机械系金相专业攻读研究生,获硕士学位

1998.7~至今   在bet356官网手机appbat365官网登录入口任教,先后任助理研究员,副研究员,副教授,教授

历任金属材料工程系系秘书,系主任,院工会主席

2001.3~2006.1  华中科技大学攻读博士,获博士学位

2018.9-       bet356官网手机app至诚学院材料工程系系主任,副教授,教授

社会兼职

福建省女科技工作者协会理事

福建省青年科学家协会监事

福建省硅材料研发科技服务团队

福建省电机工程学会福建能源电力专家

荣誉称号

bet356官网手机app优秀共产党员,福建省优秀巾帼发明家,福建省第十届青年科技奖

教学情况

担任本科生《材料科学基础》、《金属学及热处理》、《材料腐蚀与防护》、《金属腐蚀与防护》等教学实践课程

担任研究生电化学原理与测试技术等课程

研究领域

纳米功能材料、电极材料的制备技术与应用研究、金属电化学原理

主持或参加国家、省部级科研项目及企业研发项目40多项,合作的企业有国家电网下属公司、硅化工产业。

承担课题

科研项目

(1)省基金,2019J01230,新型活性氧化物的电子,离子结构与催化活性相关性研究的新方法.2019.7-2022.7  8万元

(2)省基金,2015J01190,新型多元活性氧化物电极材料交互作用的原子水平分析与电催化机理研究,2015.4-2018.4      5万元

30.20mm低损耗取向硅钢研制及应用技术研究,国网福建省电力有限公司电力科学研究院23.05万元,20236-20255

(4)配电网塔杆力学性能智能监测与预警,国网福建省电力有限公司莆田供电公司,12.05万元,2022.6-2023.6

(5)021121401   耐候钢腐蚀产物分析.福州晶科金烁科技有限公司. 9.2万元,2021.12.31-2022.12.31

(6)2021121402    2021年配网设备材料失效分析外委.国网福建省电力有限公司电力科学研究院.30.4万元,2021.12-2021.12

(7)环保无铅耐500℃高温焊料和陶瓷灯座导电涂层开发.厦门欣榕电工有限公司.150万元,2021.12-2023.11

(8)福建沿海区域架空绝缘导线腐蚀机理及耐老化绝缘层材料的研究.国网福建省电力有限公司电力科学研究院.43.8万元 2015.5-2017.4

(9)2017102703 110kV/220kV变电站断路器和GIS的外接线板腐蚀分析.国网福建省电力有限公司电力科学研究院.24.95万元 2017.9-2020.6

(10)2020121413具有抗偏移能力的无线充电样机性能测试.国网福建省电力有限公司电力科学研究院.14.5万元 2020.11-2021.10

(11)2020112404 绝缘子用耐老化RTV涂料开发.福建智达力胜电力科技有限公司.10万元    2020.9-2021.8

 

省级教改项目:

(1) 2019.10-2021.10 FBJG20190200.福建省教育厅本科高校一般教育教学改革研究.转型背景下双创型新工科材料成型及控制工程专业改造升级路径探索与实践.2

(2)金属学及热处理获2019年省级精品线上线下混合式课程培育.福建省教育厅关于公布2019年省级精品线上线下混合式课程和慕课应用型本科教学团队立项.2   2019.11-2020.10

(3)《金属学及热处理》 教育厅正式公布了2019年省级线下一流本科课程名单,2020.1-2024.12   2

 

论著成果

[1]Shao Yanqun ,Feng Keke   ,Guo Jie   ,Zhang   Rongrong ,He   Sijiang ,Wei   Xinli ,Lin   Yuting ,Ye   Zhanghao, Chen Kongfa. Electronic   structure and enhanced photoelectrocatalytic performance of RuxZn1–xO/Ti   electrodes. Journal of Advanced Ceramics,2021, 10(5): 1025-1041

[2]Shao Yanqun,Feng Keke,Zhang Shuai,Zhang Rongrong,He Sijiang,Wei Xinli,Lin Yuting,Ye Zhanghao,Chen Kongfa.IrO2–CeO2-graphene/Ti porous   electrode with high charge-transfer speed and enhanced capacitance.   Ceramics International,2021, 47(3):3728–3740

[3] Hao   Tan, Pengbo Ge, Yanqun   Shao, Zhijiang Liu, Huihui Li, Kongfa   Chen, Lihong Xu, Jianhuang Zhuang, Yunxiang   Chen, Xiaojian Xia. ZnCoS Coatings with a Rough and Porous Nano-Dendrite Structure for High-Performance Asymmetric Supercapacitors without Binder,Electrochimica Acta,2022,429,141048

[4]Pengbo Ge , Hao Tan , Yanqun Shao ,   Rongrong Zhang , Lihong Xu , Jianhuang Zhuang , Yunxiang Chen , Xiaojian Xia   , Zhijiang Liu , Huihui Li , Kongfa Chen , Electrochemical Performance of MoO3-RuO2/Ti   in H2SO4 electrolyte as anodes for Asymmetric   Supercapacitors, Electrochimica Acta,2022,429:140984

[5]Feng Keke, Lin   Yuting,Guo Jie,Ye Zhanghao, Zhang Yanbin,Ma Qiongqiong,Shao Yanqun*,   Chen Kongfa, Zhuang Jianhuang,Lin Deyuan, Lin Tianshun. Study on the enhanced   electron-hole separation capability of IrxZn1-xO/Ti   electrodes with high photoelectrocatalysis efficiency.Journal of Hazardous   Materials,2020,393 (7):122488

[6] Zhang   Yanbin,Ma   Qiongqiong,Feng   Keke,Guo Jie,   Wei   Xinli,   Shao   Yanqun*, Zhaung   Jianhuang,   Lin   Tianshun..Effects   of Microstructure and Electrochemical Properties of Ti/IrO2-SnO2-Ta2O5   as anodes on Binder-Free Asymmetric Supercapacitors   with Ti/RuO2-NiO   as cathodes.Ceramics International,2020,46(11):17640-17650

[7]Wang   Jinjin ,Ye Tianfeng ,Shao Yanqun*,Lu   Zhiyuan,Lin Yuting ,Wu Huixuan,Li Guoyong,Chen Kongfa ,Tang Dian.Flower-like   nanostructured ZnCo2O4/RuO2 electrode   materials for high performance asymmetric supercapacitors.Journal of The Electrochemical   Society,2021,168(12):120553 

[8] Feng Keke,Ye Zhanghao,Guo Jie,Lin Yuting, Zhang Yanbin,Ma   Qiongqiong,Shao Yanqun*,Chen  Kongfa .Study on the Binder-Free   Asymmetric Supercapacitors with Nano-IrO2-ZnO/Ti as Anode and RuO2-MoO3/Ti   as Cathode in H2SO4 Electrolyte.Journal of Alloys and   Compounds, 2020,819:153385

[9]  Chen   Zhijie, Wang Yanhong ,Shao Yanqun*, Yi Zhaoyu, Zhu Junqiu,Tang Dian.Effects   of Annealing Temperature on the Capacitive Performance of Ti/Ir0.2Mn0.6Sn0.2O2   Electrodes.Journal of Alloys and Compounds, 2017, 712: 97-102.

[10] Chen   Zhijie, Zhang  Shuai , Shao Yanqun*,  Zhou Shaoling,Wu   Xinhua ,Zhu Junqiu , Tang Dian. Relationship between the electric structures   calculated by the first principles calculation method and the   photoelectrocatalysis degradation of Ir-doped SnO2 electrodes.Applied Surface Science,   2017,422:891-899

[11]Chen   Zhijie, Zhu Junqiu, Zhang Shuai ,Shao Yanqun*, Lin Deyuan,Zhou Jianfeng,   Chen Yunxiang, Tang Dian. Influence of the Electronic Structures on the Heterogeneous   Photoelectrocatalytic Performance of Ti/RuxSn1−xO2   Electrodes.

Journal of Hazardous Materials, 2017,333( 5 ):232-241  

[12] Ye Tianfeng,Wu Huixuan,Shao Yanqun*, Ye Zhanghao,   Li Guoyong, Wang Jinjin, Chen Kongfa.Study on the effect of G/CNT on the   enhanced capacitance of IrO2-ZnO-G(CNT)/Ti electrodes.Journal   Energy & Fuels,2022, 36(6): 3259–3271

[13]   Wei Xinli, Ye Tianfeng, Shao Yanqun*,   Huang Shanfeng, Wang Jinjin, Li Guoyong,Wu Huixuan , Chen Kongfa.Effect of Co3O4   on the structure and electrochemical performance of IrO2-Co3O4/Ti   electrodes by First-principles calculations and experimental. Materials today   communications,2022,31:103234

[14] Huang Shanfeng, Feng Keke, Wang Yanhong, Zhang   Shuai, Shao Yanqun*,Chen Kongfa, Tang Dian. Effect of IrO2   Content on Microstructure and Capacitance of IrO2-CeO2-G/Ti   Electrode.Rare Metal Materials and Engineering, 2020, 49(5): 1533-1538.