删除或更新信息,请邮件至freekaoyan#163.com(#换成@)

中国计量大学材料与化学学院导师教师师资介绍简介-李冬云

本站小编 Free考研考试/2021-04-15

李冬云
sex
2
title
副教授
department
材料与化学学院
college

college2

degree
博士
recruit":0,"firstDiscipline1

secondaryDiscipline1

firstDiscipline2
电子信息
secondaryDiscipline2

executive

officePhone

mobilePhone

emailAddress
lidongyun@cjlu.edu.cn
businessAddress

individualResume
女,博士,硕导,2004年博士毕业于西安交通大学材料科学与工程学院,2006年浙江大学博士后出站。2006年至今在中国计量大学材料科学与工程学院任教,兼国家磁性材料及其制品质量监督检验中心质量负责人。主要学术兼职有:全国质量监管重点产品检验方法标准化技术委员会磁性材料检验方法专业组委员、中国硅酸盐学会溶胶-凝胶分会的理事、杭州市硅酸盐学会理事,浙江省新材料协会专家委员、国家认证认可评审员。主持和参与省部级以上科研项目10余项,校企合作项目20余项,发表SCI收录的学术论文50余篇。
researchTopic
1.浙江省公益科技计划项目(No.2015C31041),纳米磁性固相萃取剂的制备及其在水体中痕量重金属分析中的应用,15万,主持\r2.校企合作项目(No. H163233), 混合动力汽车用新型双双转子电机,20万,主持\r3.校企合作项目(No. H152282)LED照明用MnZn铁氧体研制,20万,主持\r4.校企合作项目(No. H152066)高性能锰锌软磁铁氧体的关键技术研究,100万,主持\r5.校企合作项目(No. H163249) 高强韧性结构功能—体化金属基复材料研制,12万,主持\r\r
awards
2014年度获得中国计量大学的“事业家庭兼顾型”荣誉称号
researchProject
1.浙江省基金一般项目,LY14E020009,MoSi2-RSiC多功能复合材料的制备及高温性能研究,8万元,主持\r2.浙江省重大科技攻关项目,2011C11025,纳米改性高频电路基板的关键技术与产业化,669万元,主持\r3.浙江省重点科技计划项目,2006C21071,水基陶瓷成型技术,30 万元,主持\r4.校企合作项目(No. H141139), 用于电力行业的宽幅超薄非晶合金软磁材料的研发,30万\r5.校企合作项目(No. H H141138)新型金属纳米陶瓷减摩耐摩复合材料的研发,30万\r6.校企合作项目(No. H H131203)覆铜板生产线中有机废气处理的新技术研究与应用,100万\r7.校企合作项目(No. H122146)高耐腐蚀钐钴磁体研发,10万\r8.校企合作项目(No. H122012)低介电、高Tg高频电路基板的研发,100万\r
publications
1.Crystallization kinetics and magnetic properties of spinel transition metal ferrite,Journal of Ceramic Processing Research,2016,17(5): 499-503\r2.A facile way to realize exchange coupling interaction in hard/soft magnetic composites, Journal of Magnetism and Magnetic Materials,2016,417: 355-358\r3.Effect of Bi2O3–MoO3–Nb2O5 Addition on Microstructure and Magnetic Properties of Mn–Zn Ferrites with High Permeability, Journal of the Chinese ceramic society,2016,44(9): 1297-1301\r4.Goethite (a-FeOOH) nanopowders synthesized via a surfactant-assisted hydrothermal method:morphology, magnetic properties and conversion to rice-like a-Fe2O3 after annealing. RSC Adv.,2015, 5,27091–27096.\r5.Effects of Dy3+ substitution on the structural and magnetic properties of Ni0.5Zn0.5Fe2O4 nanoparticles prepared by a sol-gel self-combustion method. Ceramics International, 2015 (41): 4581–4589\r6.Structural and magnetic properties of nickel ferrite nanoparticles synthesized via a template-assisted sol–gel method. Ceramics International,2014 (40) 16529–16534.\r7.Growth behavior of low-dimensional nano ZnO on a biomorphic porous carbon (BPC) matrix by a hydrothermal synthesis method. Journal of Ceramic Processing Research. 2013,14(1): 104~108. \r8.Detailed electrical and mechanical retention characteristics of MoSi2-RSiC composites exhibiting three-dimensional (3D) interpenetrated network structure during long-term high-temperature oxidation process, Ceramics International 2016,42(5): 5873-5884\r9.Mechanical and electrical properties of MoSi2-RSiC composites via a combination of phenolic resin infiltration-pyrolysis and MoSi2-Si-Ti alloy-activated melting infiltration composite processes, ADVANCES IN APPLIED CERAMICS,2016,115(5): 249-259\r10. Electrochemical performance of LiFePO4 @C composites with biomorphic porous carbon loading and nano-core-shell structure, Ceramics international,2014, 40(8):13009-13017.\r11. Synthesis of a LiFePO4/C nao-maerial with a cre-shell sructure by an in-situ polymerization restriction method and its thermal decomposition kinetics. Rare metal materials and engineering, 2012,sup3, 31-34.\r12.The fabrication of the hydrated alumina powders by the sol-gel method. Rare Metal Materials and Engineering. 2008,37, 2:292-294. \r
others

correlation
researchDirection1
应用于新能源和电子行业的纳米粉体的制备
researchDirection2
磁性材料及其功能元器件研究
researchDirection3
用于癌症治疗的靶向材料的研究
researchDirection4
应用于废水处理的磁性吸附剂的研究
相关话题/中国计量大学 材料