姓名:姬科举 | 性别:男 | 职务: | |
职称:副研究员 | 博导/硕导:硕导 | 办公室:12-512 | |
研究领域:仿生微纳制造;仿生黏附材料;装备及其产业化;仿生爬壁关键技术 | |||
电话:025-84892581 | Email:jikeju@nuaa.edu.cn |
个人简介:
姬科举,博士,副研究员,江苏省仿生功能材料重点实验室副主任,中国机械工程学会摩擦学分会委员、生物制造工程分会委员、国际仿生工程学会青年工作委员会委员,中国机械工程学会高级会员,新加坡南洋理工大学CSC公派留学资助;入选无锡飞凤人才计划科技领军人才,绍兴名士之乡英才计划。
主要从事仿生微纳制造、仿生黏附材料、装备及其产业化、仿生爬壁关键技术研究,研究成果在我国梦天实验舱、神州十五、十六、十七号载人航天任务中获得应用,系列化仿生黏附垫产品已大批量应用于泛半导自动化领域。发表一作/通讯高水平论文30余篇,他引500余次;授权发明专利13余项。主持承担国家自然科学基金面上项目、军委科技委前沿创新计划项目、军委科技委基础加强项目课题、装发国防重点实验室基金(结题优秀)、江苏省自然科学基金、江苏省仿生功能材料重点实验室主任基金等多项科研任务。
工作经历:
2016.04—现在 副研究员 南京航空航天大学
教育背景:
2004.09—2008.06 学 士 南京航空航天大学
学术成果:
主要代表作如下:
[1] Jianming Wu, Keju Ji*, Shaobao Liu, Tingwei Huo, Xipeng Wang, Chongwen Tu, Jiahui Zhao, Kai Deng, Zhendong Dai, Stanislav N. Gorb. Bio-inspired anti-slip and anti-adhesion surface with hemispherical microstructures for wafer handling. Tribology International, 2024, 191: 109178. (1区top期刊)
[2] Xipeng Wang, Keju Ji*, Shixun Fu, Chongwen Tu, Jianming Wu, Tingwei Huo, Jiahui Zhao, Yuanming Ji, Kai Deng, Haoran Tan, Zhendong Dai. Influence of vibrations and shocks on the stability of biomimetic attachments. Colloids and Surfaces A: Physicochemical and Engineering Aspects. 2024, 682: 132946.
[3] Chongwen Tu, Keju Ji*, Jiahui Zhao, Xipeng Wang, Jianming Wu, Tingwei Huo, Yuanming Ji, Jian Chen, Kai Deng, and Zhendong Dai. Preload-Induced Switchable Adhesion. Small, 2023: 2305091.(1区top期刊)
[4] Jiahui Zhao, Keju Ji*, Qin Chen, Muhammad Niaz Khan, Chongwen Tu, Ze Ma, Jianming Wu, Jian Chen, Zhendong Dai*. Insect-inspired design strategy for flexible attachments with strong frictional force and weak pull-off force. Tribology International, 2023, 189: 108973.(1区top期刊)
[5] Qian Zhang, Keju Ji*, Tingwei Huo, Muhammad Niaz Khan, Zhuoyang Hu, Cong Yuan, Jiahui Zhao, Jian Chen, Zhouyi Wang, Zhendong Dai. Biomimetic Patch with Wicking-breathable and Multi-mechanism Adhesion for Bioelectrical Signal Monitoring. ACS Applied Materials & Interfaces, 2022, 14: 48438−48448. (JCR 1区top期刊)
[6] Jiahui Zhao, Keju Ji*, Qin Chen, Muhammad Niaz Khan, Chongwen Tu, Ze Ma, Jianming Wu, Jian Chen, Zhendong Dai*. Resistance reduction of patterned surface inspired by cuticle structure of Achalinus spinalis. Friction, 2023, 11, 1359–1370 (1区top期刊)
[7] Cong Yuan, Keju Ji*, Qian Zhang, Peng Yuan, Yilin Xu, Jing Liu, Tingwei Huo, Jiahui Zhao, Jian Chen, Yi Song, Yi Long, Zhendong Dai. Bionic design and performance of electrode for bioelectrical signal monitoring. Advanced materials interfaces, 2022, 9: 2200532.(封底论文)
[8] Muhammad Niaz Khan, Tingwei Huo, Qian Zhang, Zhuoyang Hu, Jiahui Zhao, Jian Chen, Zhouyi Wang, Keju Ji*(通讯). Synergetic adhesion in highly adaptable bio-inspired adhesive. Colloids and Surfaces B: Biointerfaces, 2022, 212:112335. (1区top期刊)
[9] Cong Yuan, Keju Ji*, Yiqiang Tang, Zizhuo Wang, Enhua Cui, Jian Chen, Zhendong Dai. Effective metal mold method for the production of bionic adhesives based on electrochemical modifications. Chinese Journal of Aeronautics, 2021, 34(4):332-340. (1区top期刊)
[10] Mingcai Wen, Yiqiang Tang, Cong Yuan, Enhua Cui, Keju Ji*, Zhendong Dai. Effect of interconnected metal skeletons on the tribological properties of polyurethane elastomers. Journal of Engineering Tribology, 2020, 234(10), 1635–1641.
[11] Keju Ji*, Meng GY, Yuan C, Cui EH, Li Y, Sun J, Dai ZD. Synergistic effect of Fe and Al2O3 layers on the growth of vertically aligned carbon nanotubes for gecko-inspired adhesive applications. Journal of Manufacturing Processes, 2018, 33:238-244. (1区top期刊)
[12] Yang Li, Keju Ji*, Yali Duan, Guiyun Meng, Zhendong Dai. Effect of Hydrogen Concentration on the Growth of Carbon Nanotube Arrays for Gecko-Inspired Adhesive Applications. Coatings, 2017, 7(12):221.
[13] Keju Ji, Jun Zhang, Jia Chen, Guiyun Meng, Yanfei Ding, Zhendong Dai. Centrifugation-assisted fog-collecting abilities of metal-foam structures with different surface wettabilities. ACS Applied Materials & Interfaces, 2016, 8:10005-10013. (JCR 1区top期刊)
[14] Keju Ji, Jing Liu, Jun Zhang, Jia Chen, Zhendong Dai. Super-floatable multidimensional porous metal foam integrated with a bionic superhydrophobic surface. Journal of Materials Chemistry A, 2014, 2:16589-16593. (JCR 1区top期刊)
[15] Keju Ji, Chen Xu, Huihui Zhao, Zhendong Dai. Electrodeposited lead-foam grids on copper-foam substrates as positive current collectors for lead-acid batteries. Journal of Power Sources, 2014, 248:307-316. (JCR 1区top期刊)
[16] Keju Ji, Yinsong Xu, Jun Zhang, Jia Chen, Zhendong Dai. Foamed-metal-reinforced composites: Tribological behavior of foamed copper filled with epoxy–matrix polymer. Materials & Design, 2014, 61:109-116.(1区top期刊)
[17] Keju Ji, Huihui Zhao, Jun Zhang, Jia Chen, Zhendong Dai. Fabrication and electromagnetic interference shielding performance of open-cell foam of a Cu–Ni alloy integrated with CNTs. Applied Surface Science, 2014, 311:351-356. (JCR 1区top)(他引207次)
[18] Keju Ji, Huihui Zhao, Zhenggen Huang, Zhendong Dai. Performance of open-cell foam of Cu–Ni alloy integrated with graphene as a shield against electromagnetic interference. Materials Letters, 2014, 122:244-247.
[19] Keju Ji, YQ Xia, Dai ZD. Different foamed metal–reinforced composites: Tribological behavior and temperature field simulation. Tribology Transactions, 2013, 56:615-622.
[20] Keju Ji, Weigen Shan, Yanqiu Xia, Zhendong Dai. The Tribological Behaviors of Self-Lubricating Composites as Filler in Copper Foam, Tribology Transactions, 2012, 55:1, 20-31.
发明专利:
[1]姬科举,王喜鹏,吴建铭,霍婷薇,姬原鸣,沈国远,曾建,邓凯。一种适用于真空、高温环境下的仿生黏附垫及其制备方法,发明专利申请号:202311437369.4.
[2] 姬科举;吴建铭;姬原鸣;沈国远;刘静。一种球冠状末端凸起直柱阵列的仿生增摩减黏垫,发明专利申请号:202311256880.4.
[3] 姬科举;朱小磊;姬原鸣;吴建铭;沈国远;邓凯。一种基于磁力移动控制的真空黏附力测量装置,实用新型申请号:202322625780.6
[4]姬科举;张佳纯;涂冲文;赵家辉;邓凯;吴建铭;王喜鹏。一种三明治夹层结构仿生摩擦垫及其制备方法,发明专利申请号:202310843448.9, 实用新型授权号:ZL202321804008.4.
[5]姬科举;张佳纯;赵家辉;邓凯;吴建铭;王喜鹏。一种仿昆虫足垫的多层级球冠状增摩减黏垫及其制备方法,发明专利申请号:202310730791.2.
[6]姬科举;姬原鸣;王喜鹏;王子卓; 陈健;涂冲文;戴振东。一种可负压辅助的卷对卷精密辊压制造装置与方法,发明专利申请号:202210178293.7, 实用新型授权号:ZL202220392600.7.
[7] 姬科举;胡卓扬;陈健; 姬原鸣;张迁;戴振东。一种末端膨大的仿生黏附材料高效制造方法,发明申请号:202110621508.3.
[8]姬科举;张迁;胡卓扬;崔恩华;陈健;戴振东。一种透气型仿生黏附材料及其制备方法,发明专利申请号:202110367841.6.
[9] 戴振东、姬科举、胡卓扬、王周义、陈健、赵家辉、霍婷薇。一种基于仿生黏附材料的微重力环境下肢骨肌锻炼装置,发明专利申请号:202111640166.6.
[10] 姬科举;戴振东;唐义强;赵春霞;乔元华;甘培赟。Flat-imprint fabrication of bionic adhesive material base on metal mould for micro-through-hole nickel. 美国专利:PCT-CN2020-111089.
[11] 戴振东;姬科举;崔恩华;陈健;袁聪;唐义强。Preparation method of bionic adhesive material with tip-expanded microstructural array.美国专利授权号:US 11254566B2.
[12]姬科举;崔恩华;王子卓;张迁;胡卓扬;戴振东。一种集成泡沫金属吸液芯和翅片的散热器。发明专利申请号:202011124199.0.
[13]姬科举;王子卓;崔恩华;张迁;胡卓扬。一种具有六自由度的外墙自动化喷涂设备,发明专利申请号:202011127292.7.
[14] 姬科举;戴振东;甘培赟;吴文涛;赵春霞;乔元华。一种加成型耐寒耐辐照硅橡胶及其制备方法与应用。发明专利申请号:202010952598.X.
[15] 姬科举;戴振东;唐义强;赵春霞;乔元华;甘培赟。一种基于微通孔镍基模具的仿生黏附结构平压制造方法. 发明专利授权号:ZL202010805845.3.
[16] 姬科举;戴振东;袁聪;唐义强;陈健;崔恩华。一种末端膨大微结构阵列仿生黏附材料的制备方法,发明专利授权号:ZL201910608241.7.
[17]姬科举;王子卓;刘建石;蒋丽;杨静怡;丁海涛。一种面向高楼外墙的自动化打磨喷涂设备。发明专利授权号:ZL201911004085.X.
[18] 姬科举;王子卓;杨静怡;刘建石;蒋丽;丁海涛。一种高楼外墙打磨设备,发明专利授权号:ZL201911004080.7.
[19] 姬科举;王子卓;王珂星;蒋丽;丁海涛。一种面向高楼外墙的自动化喷涂设备,发明专利授权号:ZL201911004073.7.
[20]姬科举;戴振东;唐义强;吴杰;崔恩华;陈健。一种脚状仿壁虎黏附材料的制备方法,发明专利申请号:201910628830.1.
[21] 王周义;翁志远;尹潇;姬科举;戴振东。一种利用水溶性模板制备复杂软体结构的方法,发明专利申请号:202111425287.9.
[22] 王周义;王刘伟;戴振东;姬科举;王炳诚。一种兼具黏附与钩爪混合接触的仿生柔性抓取装置。发明专利授权号:ZL201810661922.5.
[23] 何青松;戴振东;陆明月;姬科举;李阳。仿壁虎末端带电定向碳纳米管干黏附阵列的制备方法。发明专利授权号:ZL201710756785.9.
[24] 李宏凯;戴振东;姬科举;陈高风。仿生黏附的微重力下复杂运动体旋转消除方法及验证装置。发明专利授权号:ZL201610893407.0.
[25] 戴振东;姬科举;赵慧慧。泡沫金属-石墨烯复合材料及其制备方法。发明专利授权号: ZL201310360855.0.
[26] 戴振东;夏延秋;姬科举。基于多孔泡沫金属的嵌入式固体自润滑材料及其制备方法。发明专利授权号: ZL201010254843.6.
讲授课程:
《仿生轻质功能材料》,《造型与结构设计实践》,《仿生材料设计艺术》
承担项目:
[1] 国家自然科学基金面上项目(52075249),基于超大规模微通孔金属的仿生黏附结构制造关键技术研究,2021/01-2024/12,主持。
[2] 军委科技委基础加强项目(2019-JCJQ-ZD-356),典型爬行动物的吸附与爬行生物学机制,2020/04-2024/04,共同主持。
[3] 便携式****技术专题 (AQA23001),2023/06-2024/06,主持.
[4] 装备发展部国防重点实验室基金(614200419020),空间辐照环境下仿生粘附材料性能退化机理研究,2020/01-2021/12,主持,结题优秀。
[5]军委科技委前沿创新计划(17-163-15-XJ-003-005-01),****理化学机理及行为实现技术研究,2017/05-2017/10,主持,结题,通过国防科技成果鉴定,获航天部门应用证明。
[6] 江苏省自然科学基金青年基金(BK20170796),开孔泡沫金属的流固耦合特性及其在散热器件中的应用,2017/07-2020/06,主持,已结题。
[7] 江苏省仿生功能材料重点实验室主任基金,仿生功能材料基地建设,主持;
[8]南京航空航天大学教改项目(2020YJXGG14),创新名城建设背景下的研究生校企协同培养模式探索与实践,2020.12~2022.12,主持。
指导研究生情况:
指导硕士研究生11人,国际留学生1人。所带研究生在科创领域成果显著,毕业人均至少1篇一作SCI论文以及数篇专利,研究方向具有产学研协同的特点,研究平台拥有数千万微纳制造专业设备资源,对学生的综合素质培养和提升具有显著优势,近三年来团队数人报送至帝国理工、清华、北航等一流学府深造。
南航教师个人主页:http://faculty.nuaa.edu.cn/jikeju/zh_CN/index.htm