朱超琼-凯发天生赢家

发布者:张立江发布时间:2022-08-23浏览次数:3607

朱超琼,女,19955月生,浙江诸暨人,中共党员,清华大学工学博士,导师为王晓慧教授。20227月入职中国矿业大学材料与物理学院,特聘副研究员,硕士生导师。研究方向为能量存储和转换材料,包括储能陶瓷电介质材料及器件,高容、宽温度稳定型陶瓷介质材料与器件,多层陶瓷电容器关键制备工艺研发等。主持中国博士后基金特别资助(站前)项目、中央高校基本科研业务费科技项目、清华大学新型陶瓷与精细工艺国家重点实验室开发课题等项目,已在国内外高水平期刊上发表论文30余篇,申请专利5项,撰写英文专著章节《ceramic dielectrics for mlcc》。



教育/工作经历:

2022.07至今     中国矿业大学材料与物理学院,特聘副研究员

2017.09~2022.06  清华大学材料学院,工学博士

2014.09~2017.06  清华大学经管学院,经济学学士(第二学位)

2013.09~2017.06  清华大学材料学院,工学学士


凯发ag旗舰厅的联系方式:

邮箱:zhucq@cumt.edu.cn

地址:江苏省徐州市大学路1号中国矿业大学材料与物理学院


科研兴趣:

1. 新型功能陶瓷材料:

1)超宽温度稳定型陶瓷材料;

2)高熵储能陶瓷材料;

3)晶粒级配陶瓷材料;

3)复合陶瓷电介质材料;

2. 多层陶瓷电容器关键制备工艺及可靠性提升设计

3. 陶瓷烧结新工艺及机理研究:两段式烧结、冷烧结、超快速烧结

4. 材料模拟仿真设计:有限元、相场模拟


科研项目:

1. 中国博士后基金特别资助(站前)项目,2023tq03722023,在研,主持

2. 清华大学新型陶瓷与精细工艺国家重点实验室,开放课题,kf2022042022,在研,主持

3. 中央高校基本科研业务费科技项目,2023,在研,主持

4. 横向课题,多层陶瓷电容器fib加工制样与微结构分析,2023,在研,主持

5. 横向课题,陶瓷材料损伤数据集构建、分析与三维可视化重建,2023,在研,主持

6. 中国矿业大学科研启动经费,2022,在研,主持



论文发表:

[1] zhu c q, cai z m, luo b c, guo l m, li l t, wang x h. high temperature lead-free bnt-based ceramics with stable energy storage and dielectric properties. j. mater. chem. a, 2020, 8:683-692.

[2]zhu c q, cai z m, luo b c, cheng x, guo l m, jiang y, cao x h, fu z x, li l t, wang x h. multiphase engineered bnt-based ceramics with simultaneous high polarization and superior breakdown strength for energy storage applications. acs appl. mater. interfaces, 2021, 13:28484-28492.

[3]zhu c q, cai z m, guo l m, jiang y, li l t, wang x h. simultaneously achieved ultrastable dielectric and energy storage properties in lead-free bi0.5na0.5tio3-based ceramics. acs appl. energy mater., 2022, 5:1560-1570.

[4]zhu c q, cai z m, guo l m, li l t, wang x h. grain size engineered high-performance nanograined batio3-based ceramics: experimental and numerical prediction. j. am. ceram. soc., 2021, 104:273-283.

[5]zhu c q, wang x h, zhao q c, cai z m, cen z y, li l t. effects of grain size and temperature on the energy storage and dielectric tunability of non-reducible batio3-based ceramics. j. eur. ceram. soc., 2019, 39:1142-1148.

[6]zhu c q, zhao q c, cai z m, guo l m, li l t, wang x h. high reliable non-reducible ultra-fine batio3-based ceramics fabricated via solid-state method. j. alloys compd., 2020, 829:154496.

[7]zhu c q, cai z m, li l t, wang x h. high energy density, high efficiency and excellent temperature stability of lead free mn–doped batio3–bi(mg1/2zr1/2)o3 ceramics sintered in a reducing atmosphere. j. alloys compd., 2020, 816:152498.

[8]zhu c q, cai z m, cao x h, fu z x, li l t, wang x h. high-dielectric-constant nanograin batio3-based ceramics for ultra-thin layer multilayer ceramic capacitors via grain grading engineering. adv. powder mater., 2022,1:100029.

[9] zhu c q, cai z m, feng p z, zhang w c, hui k z, cao x h, fu z x, wang x h. reliability mechanisms of the ultrathin-layered batio3-based bme mlcc. acta phys-shim sin, 2023, 40: 2304015.

[10] cai z m, zhu c q*, li s h, yang h, li a y, tian z b, feng p z. transformation toughening in solid dielectrics. acs appl. electr. mater. 2023, 5(2): 1206-1211.

[11] cai z m, yang h, zhu c q*, li s h, luo b c, li a y, li x h, tian z b, feng p z. local heterogeneous polarization enhanced superior low-field energy storage performance in lead-free relaxor ferroelectric ceramics. acs sustain. chem. eng. doi: 10.1021/acssuschemeng.3c03618.



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