丁春艳-米乐app官方

丁春艳，女，1989年生，山东聊城人，工学博士，副教授，硕士生导师，班级导师，研究生德育导师。主要从事特种陶瓷及碳材料的研究。主持/参与国家自然科学基金青年基金、面上项目、xxx配套项目、山东省重点研发计划等科研项目7项。在advanced materials、journal of material chemistry a、carbon、nano research、chemical engineering journal等国际学术刊物上发表sci学术论文20余篇，其中esi高被引论文3篇。申请国家发明专利19项，授权8项。获得科研标兵荣誉称号。

研究方向：

纳米金属氧化物的多样化制备应用于锂离子电池

多孔碳材料的设计与制备应用于超级电容器

新型碳基吸波材料

电磁隐身材料

陶瓷3d打印

主讲本科生课程：机械设计基础、机械设计基础课程设计、资源循环科学与工程概论、计算机在材料科学中的应用；

主讲研究生课程：材料热力学与动力学。

米乐体育官网app入口的联系方式：; 15098118986

学习工作经历

2022.5至今，山东理工大学材料科学与工程学院，副教授

2018.10-2022.5，山东理工大学材料科学与工程学院，讲师

2014.09–2018.10，哈尔滨工业大学，博士

2012.09–2014.07，哈尔滨工业大学，硕士

2008.09–2012.07，聊城大学，学士

学术成果

近五年主持参与项目:

1. 石墨层@mno复合锂电负极材料研制；

2. 高精度三维检测装备用高技术陶瓷关键结构部件的研制及应用；

3.  山东省重点研发计划两项；

4. 新工科背景下非机械专业《机械设计基础》课程虚拟仿真实验教学系统建设；

5. 新工科背景下《资源循环科学与工程》课程体系构建；

近五年发表论文:

1. , h. fu, t. wu, y. tang, x. hu, s. wu, l. zhang, g. wen, x. huang. heterogeneous network constructed by high aspect-ratio kapok biomass microtube for lightweight and broadband microwave absorbent[j]. carbon, 2022, 191:424-432. (sci一区).

2. c. ding, h. fu, t. wu, y. li, s. wu, * x. ren, z. gao, k. guo, l. xia, g. wen, and x. huang *. wave-transparent las enabling superior bandwidth electromagnetic wave absorption of a 2d pitaya carbon slice[j]. journal of materials chemistry a 10 (2022) 17603-17613. (sci一区).

3.  c. ding, t. wu, x. hu, c. shao, z. xu, h. fu, s. wu, g. wen, and x. huang. pomegranate micro/nano hierarchical plasma structure for superior microwave absorption[j]. nano research, 2022, https://doi.org/ 10.1007/s 12274-022-4522-0.

4. c. ding, s. wu, y. zhang, y. wu, x. geng, x. huang, g. wen, a. wang. sugar blower protocol enabling superior electromagnetic wave absorption of porous micro pipeline carbon materials[j]. journal of materials chemistry a 9(30) (2021) 16395-16404. (sci一区)

5. c. ding, t. wu, s. wu, m. fu, h. fu, x. hu, y. wu, a. wang, w. zhou, x. huang, g. wen, an in-situ blowing-etching strategy for preparation of macro-meso-micro hierarchical porous carbon and its supercapacitive property[j]. applied surface science 569 (2021) 151057. (sci一区)

6. s. wu , et al., *, x. yan , h. gao , x. ren , h. zhang , g. wen , x. huang. high aspect-ratio sycamore biomass microtube constructed permittivity adjustable ultralight microwave absorbent[j]. journal of colloid and interface science, 2022, 622:719-727.（sci一区）

7. s. wu, c. ding*, g. ma, l. xia, y. hou, b. zhong, l. huang, h. yang, t. zhang, x. huang, l. xiong, g. wen. co-enhancement of oxidation resistance and mechanical properties of cf/las composites: the effects of h-bn addition[j]. journal of the european ceramic society, 2020, 40: 19-27. (sci一区).

8. s. wu, et al., c. ding*. study of the hexagonal to monoclinic celsian phase transition induced by magnetic phase nucleation in barium aluminosilicate glass-ceramics[j]. journal of the european ceramic society, 2022, 42: 5762-5770. (sci一区).

9. t. wu, et al., c. ding*, g. wen, x. huang, s. wu. checkerboard-like nickel nanoislands/defect graphene aerogel with enhanced surface plasmon resonance for superior microwave absorption[j]. journal of colloid and interface science, 2023, 629:44-52.（sci一区）

10. ，，，，，，. hybrid aerogel-derived carbon/porous reduced graphene oxide dual-functionalized nio for high-performance lithium storage[j]. chemical engineering journal, 2017:s1385894717314900. (sci一区)

11. ，，，，，. new design on li-ion battery anode of ternary complex metal/metal oxide@cnt: a case study of hierarchical nico-nico₂o₄ @cnts[j]. chemical engineering journal, 2018, 353:340-349. (sci一区)

12. ，，，，，，. a general strategy toward graphitized carbon coating on iron oxides as advanced anodes for lithium-ion batteries[j]. nanotechnology, 2017. 28:345404. (sci一区)

13. c. ding, t. wu, x. hu, et al., s. wu*, squamous-like plasma structure decorated high aspect-ratio carbon microtube for ultralight and full-band microwave absorption[j]. applied surface science, under review. (scix区)

14. h. fu, c. ding*, s. wu, g. wen, et al. quadrangular cone carbon-constructed effective 3d network for a lightweight and broadband microwave absorbent [j]. dalton transactions, 2022. 51:16497. (sci二区)

15. a. guo, c. ding*, x. yang*, et al. hierarchical porous co-coo@nc hollow microspheres with capacity growth by reactivation of solid-electrolyte interface films[j]. journal of colloid and interface science.（sci一区）doi: 10.1016/j.jcis.2023.02.139.

近五年授权专利:

1. 一种bn辅助超强吸收超带宽吸波材料的制备方法 2021

2. 一种自活化高比电容碳微米管电极的制备方法2022

3. 一种制备薄层碳负载纳米二氧化硅材料原位发泡工艺2022

4. 一种批量制备薄层碳负载纳米zno吸波材料的低温发泡工艺 2023

5. 一种低频高效吸波sic多孔碳复合材料制备方法  2023

6. 一种宽频高效吸波大孔薄层碳材料制备方法  2023

7. 一种高比表面积高导电性碳的制备方法 2023

获得奖励

1.淄博市“创响中国”创新创业铜奖，优秀指导教师

社会兼职

山东瀛洲节能环保科技有限公司科技副总，淄博市技术经理人协会