博士生导师简介
    宋洪烈

    导师简介

    宋洪烈,吉林大学“匡亚明/唐敖庆学者”人才岗位引进计划“青年学者”(首批),副教授、博士生导师。2017年获吉林大学博士学位,师从韩志武教授,随后进入清华大学航院固体力学研究所进行博士后研究,师从黄永刚院士和张一慧教授。博士后出站后,2023年加入吉林大学任教。

    主要从事柔性电子、力学引导组装和仿生感知的相关研究,在《Science Advance》、《Advanced Materials》、《Science China Materials》、《Nature》、《Nature communications》、《PNAS》、《Advanced Science》、《Advanced Functional Materials》和《National Science Review》等期刊等发表SCI论文30余篇,文章被引用1489次,h-index为20。

    提出的高集成度柔性电子器件的层叠网格封装技术,被选为当期《Science Advances》封面,并被ESI高被引数据库收录。相关技术被《中国科学报》、《科学网》、《麻省理工科技评论》、《DeepTech深科技》、《知社学术》、《新清华》、《腾讯网》、《新浪网》,中国科学院和清华大学新闻网等宣传报道。同时该技术也引起了工业界的关注。关于力学引导三维组装的仿生三维飞行器研究相关工作,被选为当期《Nature》和《Science China Materials》封面。

    作为项目负责人承担国家自然科学基金青年基金、博士后面上基金、北京市自然基金青年项目、×科技创新项目等。参与了博士后合作导师、博士导师主导的多个重要项目。相关的研究成果,申请中国国家发明专利30余项、美国专利1项,获2019年吉林省技术发明奖一等1项。

    一、联系方式

    邮箱:hongliesong@jlu.edu.cn

    地址:长春市南关区人民大街5988号吉林大学南岭校区仿生楼

    二、研究方向

    仿生机械量感知与传感、柔性电子技术、力学引导三维组装,及其在工程技术、生物医疗领域的应用基础研究与科研转化。

    三、主要履历

    1. 2023.2至今,吉林大学,工程仿生教育部重点实验室/生物与农业工程学院/仿生科学与工程学院,“唐敖庆学者”青年学者、副教授、博士生导师;

    2. 2017.2至2022.9,清华大学航天航空学院,固体力学,助理研究员/博士后,合作导师黄永刚院士(美国三院院士和中科学院外籍院士、英国皇家学会院士等)、张一慧教授;

    3. 2014.9至2017.7,吉林大学,生物与农业工程学院,仿生科学与工程,博士,导师韩志武教授。

    四、社会兼职

    1. 光电材料器件网(中国光电产业平台)专家委员会,常务理事

    2. 中国农业工程学会,高级会员

    3. 中国农业工程学会,地面机器系统分会,委员

    4. 国际仿生工程学会(ISBE),创始学生会员、会员

    5. 吉林省农业机械学会,会员

    6. 中国力学学会,会员

    7. 担任国际期刊《Sensors and Actuators: A. Physical》、《Composites Part B》等的审稿人

    五、科研项目

    1. 无机柔性电子器件的层叠仿生网格基底结构设计、分析及应用(11902178),2020.01~2022.12,国家自然科学基金青年科学基金项目,主持;

    2. 仿生×技术及测试系统,×科技创新项目,2020.7~2022.8,主持;

    3. 风传种子仿生滞空飞行薄壳结构力学引导组装设计(3204043),北京市自然科学基金青年项目,2020.1~2022.12,主持;

    4. 仿生滞空三维多功能结构力学引导组装设计(2019M650648),中国博士后科学基金面上项目,2019.5~2021.12,主持;

    5. 仿壁虎刚毛的强干黏附表面设计及测试系统,清华大学校内横向项目,2019.10~2020.11,主持;

    6. 仿生滞空三维多功能结构力学引导组装设计(K201901),吉林大学工程仿生教育部重点实验室开放课题项目,2019.1~2020.12,主持;

    7. 吉林大学引进人才基金,2023-2025,主持;

    8. 力学驱动的纳尺度三维结构及电子器件组装(A020306),国家自然科学基金推荐原创探索计划项目,2021.1~2023.12,参与;

    9. 仿×技术,×科技创新项目,2017.1~2019.6,参与;

    10. 脑机×技术,×科技创新项目,2020.7~2020.7,参与。

    六、发表SCI论文

    发表的论文被选为期刊封面及报道

    部分代表性成果:

    1. Highly-integrated, miniaturized, stretchable electronic systems based on stacked multilayer network materials; Science Advances, 2022, 8: eabm3785; Honglie Song#, Guoquan Luo#, Ziyao Ji, Renheng Bo, Zhaoguo Xue, Dongjia Yan, Fan Zhang, Ke Bai, Jianxing Liu, Xu Cheng, Wenbo Pang, Zhangming Shen, Yihui Zhang*. (Cover feature article封面文章,ESI高被引文章)

    2. Mechanically-guided structural designs in stretchable inorganic electronics; Advanced Materials, 2020, 32, 15: 1902254; Zhaoguo Xue#, Honglie Song#, John A. Rogers*, Yihui Zhang*, Huang Yonggang*.

    3. Morphable three-dimensional electronic mesofliers capable of on-demand unfolding; Science China Materials, 2022, 65, 2309-2318 (2022); Ziyao Ji#, Jianzhong Zhao#, Honglie Song*, Shiwei Xu, Wenbo Pang, Xiaonan Hu, Fan Zhang, Tianqi Jin, Yumeng Shuai, Yu Lan, Di Cheng, Wenwen Man, Renheng Bo, Zhaoguo Xue*, Yihui Zhang*. (Cover feature article封面文章)

    4. Three-dimensional electronic microfliers inspired by wind-dispersed seeds; Nature, 2021, 597: 503-510; Bong Hoon Kim#, Kan Li#, Jin-Tae Kim#, Yoonseok Park#, Hokyung Jang, Xueju Wang, Zhaoqian Xie, Sang Min Won, Hong-Joon Yoon, Geumbee Lee, Woo Jin Jang, Kun Hyuck Lee, Ted S. Chung, Yei Hwan Jung, Seung Yun Heo, Yechan Lee, Juyun Kim, Tengfei Cai, Yeonha Kim, Poom Prasopsukh, Yongjoon Yu, Xinge Yu, Raudel Avila, Haiwen Luan, Honglie Song, Feng Zhu, Ying Zhao, Lin Chen, Seung Ho Han, Jiwoong Kim, Soong Ju Oh, Heon Lee, Chi Hwan Lee, Yonggang Huang*, Leonardo P. Chamorro*, Yihui Zhang*, John A. Rogers*. (Cover feature article封面文章)

    5. Superfast and high-sensitivity printable strain sensors with bioinspired micron-scale cracks; Nanoscale, 2017, 9, 1166-1173; Honglie Song, Junqiu Zhang, Daobing Chen, Kejun Wang, Shichao Niu, Zhiwu Han*, Luquan Ren.

    6. One-step method for fabrication of bioinspired hierarchical superhydrophobic surface with robust stability; Applied Surface Science, 2019, 473, 493-499; Dongguang Zhang, Linghan Li, Yali Wu, Bin Zhu, Honglie Song*.

    7. Geometrically reconfigurable 3D mesostructures and electromagnetic devices through a rational bottom-up design strategy; Science Advances, 2020, 6, 30: eabb7417; Ke Bai, Xu Cheng, Zhaoguo Xue, Honglie Song, Lei Sang, Fan Zhang, Fei Liu, Xiang Luo, Wen Huang, Yonggang Huang, Yihui Zhang*(Cover feature article封面文章,被Science杂志网站作为feature image在主页中焦点报道,并被Nature Reviews Materials期刊撰文报道).

    8. Soft three dimensional network materials with rational bio-mimetic designs; Nature Communications, 2020, 11, 3: 1180; Dongjia Yan#, Jiahui Chang#, Hang Zhang, Jianxing Liu, Honglie Song, Zhaoguo Xue, Fan Zhang, Yihui Zhang*.

    9. Rapidly deployable and morphable 3D mesostructures with applications in multimodal biomedical devices; Proceedings of the National Academy of Sciences of the United States of America, 2021, 118, 11: e2026414118; Fan Zhang#, Shupeng Li#, Zhangming Shen, Xu Cheng, Zhaoguo Xue, Hang Zhang, Honglie Song, Ke Bai, Dongjia Yan, Heling Wang*, Yihui Zhang*, Yonggang Huang*.

    10. Wenbo Pang#, Shiwei Xu#, Jun Wu, Renheng Bo, Tianqi Jin, Yue Xiao, Zhi Liu, Fan Zhang, Xu Cheng, Ke Bai, Honglie Song, Zhaoguo Xue, Li Wen, Yihui Zhang*, A soft microrobot with highly-deformable 3D actuators for climbing and transitioning complex surfaces, Proceedings of the National Academy of Sciences of the United States of America, 2022, 119, 49: e2215028119.

    11. Inverse design strategies for 3D surfaces formed by mechanically guided assembly; Advanced Materials, 2020, 32: 1908424; Zhichao Fan#, Yiyuan Yang#, Fan Zhang, Zheng Xu, Hangbo Zhao, Taoyi Wang, Honglie Song, Yonggang Huang*, John A. Rogers*, Yihui Zhang*. (Frontispiece feature article)

    12. An anti-fatigue design strategy for 3D ribbon-shaped flexible electronics; Advanced Materials, 2021, 33: 2102684; Xu Cheng,Fan Zhang, Renheng Bo, Zhangming Shen, Wenbo Pang, Tianqi Jin, Honglie Song, Zhaoguo Xue, Yihui Zhang*. (Back Cover feature article)

    13.  Toward imperfection insensitive soft network materials for applications in stretchable electronics; ACS Applied Materials & Interfaces, 2019, 11: 36100-36109; Jianxing Liu, Honglie Song, Yihui Zhang*.

    14.  Electro-mechanically controlled assembly of reconfigurable 3D mesostructures and electronic devices based on dielectric elastomer platforms; National Science Review, 2020, 7: 342-354; Wenbo Pang, Xu Cheng, Haojie Zhao, Xiaogang Guo, Ziyao Ji, Guorui Li, Yiming Liang, Zhaoguo Xue, Honglie Song, Fan Zhang, Zheng Xu, Lei Sang, Wen Huang, Tiefeng Li, Yihui Zhang*.

    15. 4D printing strain self-sensing and temperature self-sensing integrated sensor-actuator with bioinspired gradient gaps; Advanced Science, 2020, 7, 2000584. Daobing Chen, Qingping Liu, Zhiwu Han, Junqiu Zhang, Honglie Song, Kejun Wang, Zhengyi Song, Shifeng Wen*, Yan Zhou*, Chunze Yan, Yusheng Shi. (Back cover feature article)

    16. Highly efficient mechanoelectrical energy conversion based on the near-tip stress field of antifracture slit observed in scorpions; Advanced Functional Materials, 2019, 29, 1807693; Kejun Wang#, Junqiu Zhang#, Honglie Song, Yuqiang Fang, Xiaolong Wang, Daobing Chen, Linpeng Liu, Shichao Niu, Zhongwen Yao, Zhiwu Han*, Luquan Ren. (Inside Front Cover)

    17. High performance, tunable electrically small antennas through mechanically guided 3D assembly; Small, 2019, 15, 1804055; Fei Liu, Ying Chen, Honglie Song, Fan Zhang, Zhichao Fan, Yuan Liu, Xue Feng, John A. Rogers, Yonggang Huang, Yihui Zhang*.

    18. High-performance flexible strain sensor with bio-inspired crack arrays; Nanoscale, 2018, 10, 15178; Zhiwu Han, Linpeng Liu, Junqiu Zhang*, Qigang Han, Kejun Wang, Honglie Song, Ze Wang, Zhibin Jiao, Shichao Niu*, Luquan Ren. (Cover feature article)

    19. Ultralow-Cost, highly sensitive, and flexible pressure sensors based on carbon black and airlaid paper for wearable electronics; ACS Applied Materials & Interfaces, 2019, 11, 36, 33370-33379; Zhiyuan Han, Hangfei Li, Jianliang Xiao, Honglie Song, Bo Li, Shisheng Cai, Ying Chen, Yinji Ma, Xue Feng*. (Cover feature article)

    20. A soft gripper with contamination resistance and large friction coefficient, Zuodong Wang, Yali Wu*, Jiayi Yang, Honglie Song, Khuong Ba Dinh, Dongguang Zhang*, Vi Khanh Truong*, Applied Physics A, 2022, 128:461.

    21. Dongguang Zhang#*, Xinxin Wang#, Yali Wu*, Honglie Song, Zhen Ma, Xunying Zhang, Xiaofeng Yang, Ruizhe Xing, Yang Li, Jiayi Yang*, Passive particle jamming variable stiffness material-based flexible capacitive stress sensor with high sensitivity and large measurement limit, Advance Materials Technology, 2021, 6, 2100106.

    22. Xiao Yang*, Luo Zhang , Meng Yang , Shichao Niu, Honglie Song, Jing Ni , Can Wu , Guojin Chen, Towards high thermal stability of optical sensing materials with bio-inspired nanostructure, Materials Letters, 2018, 221, 26-30.

    23. Guoquan Luo, Liping Shi, Honglie Song, Mingwei Li, Yesheng Zhong, Xiaodong He*, Haoran Fu*, Microfluidic switches driven by mechanically guided multistable buckling, Extreme Mechanics Letters, 2022, 54: 101763-101763. (Cover feature article)

    24. Qun Wang, Zhongwen Yao, Changchao Zhang, Honglie Song, Hanliang Ding, Bo Li*, Shichao Niu*, Xinguan Huang, Chuanhai Chen, Zhiwu Han*, Luquan Ren, A selective-response hypersensitive bio-inspired strain sensor enabled by hysteresis effect and parallel through-slits structures, Nano-Micro Letters, 2024, (16), 26.

    七、授权发明专利

    1. Zhiwu Han; Kejun Wang; Honglie Song; Junqiu Zhang; Daobing Chen; Linpeng Liu; Binjie Zhang; Tao Sun; Dakai Wang; Changchao Zhang ; Micro-vibration Sensor and Preparation method thereof, 2022-9-27, 美国, US11456409B2

    2. 韩志武; 宋洪烈; 张俊秋; 张卡; 杨明康; 刘林鹏; 王可军; 陈道兵; 牛士超; 朱斌; 侯涛; 一种仿生应变感知结构及其形成方法, 2019-4-26, 中国, CN201710037438.0

    3. 韩志武; 宋洪烈; 张俊秋; 张卡; 杨明康; 刘林鹏; 王可军; 陈道兵; 牛士超; 朱斌; 侯涛; 一种仿生应变感知结构, 2017-08-29, 中国, CN201720061707.2

    4. 张一慧; 宋洪烈; 程旭; 一种非光刻的介观尺度结构力学组装成型方法, 2020-7-28, 中国,201811232182.X

    5. 张一慧; 宋洪烈; 罗国全; 籍梓垚; 柏韧恒; 基于网格基底的无机柔性电子器件及其集成方法,2022-03-15, 中国, CN202210253688.9

    6. 苏成志; 宋洪烈; 李振辉; 顾元峰; 包海峰; 王德民 ; 齿轮激光测量中光束过心调整方法, 2013-8-14, 中国, CN201310152708.4

    7. 张一慧; 程旭; 宋洪烈; 柔性导线、柔性电子器件的制备方法和柔性无线供能器件, 2020-3-20, 中国, 201811231148.0

    8. 张一慧; 籍梓垚; 宋洪烈; 阎东佳; 金天棨; 仿生飞行器及仿生飞行器的制造方法, 2021-08-31, 中国, CN202111014680.9

    9. 张俊秋; 韩志武; 宋洪烈; 陈道兵; 王可军; 牛士超; 宋丽敏; 尹维; 叶军锋; 侯涛; 刘力玮; 冯强; 姚金铃; 胡璟婧; 节肢动物蛊毛气体微流量感知在线测试系统, 2015-03-25, 中国,CN201410783777.X

    八、获得奖励

    1. 精密设备微振信号仿生超敏感知原理与关键技术, 吉林省科技厅, 发明, 省部一等奖, 2019, (韩志武; 侯涛; 张俊秋; 刘庆萍; 刘富; 陈万忠; 宋洪烈; 韩奇钢; 王小龙; 周淼磊; 牛士超; 王可军; 陈道兵; 周雪莉; 宋正义)

    2. 中德科学中心全额资助的中德暑期交流,暨“《金属结构失效原理与可靠性设计方法》短期讲学班”(GZ1315), 中德科学中心, 2016


    作者:宋洪烈  编辑:韩丽华 王雪莹  (点击: )

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