姬科舉,男,博士,南京航空航天大學機電學院、副教授、碩士生導師。
基本介紹
個人經歷,學術成果,代表性論文,代表性專利,主持項目,
個人經歷
姬科舉,博士,副研究員,江蘇省仿生功能材料重點實驗室副主任,中國機械工程學會摩擦學分會委員、生物製造工程分會委員、國際仿生工程學會青年工作委員會委員,中國機械工程學會高級會員,新加坡南洋理工大學CSC公派留學資助;入選無錫飛鳳人才計畫科技領軍人才,紹興名士之鄉英才計畫。
主要從事仿生微納製造、仿生黏附材料、裝備及其產業化、仿生爬壁關鍵技術研究,研究成果在我國夢天實驗艙、神舟十五、十六、十七號載人航天任務中獲得套用,系列化仿生黏附墊產品已大批量套用於泛半導自動化領域。發表一作/通訊高水平論文30餘篇,他引500餘次;申報專利26項,其中授權包括美國發明專利在內的專利13項。創立國內首家面向仿壁虎黏附材料的科技型技術企業“南京艾德恆信科技有限公司”,以及規模化生產基地“浙江泛力新材料科技有限公司”,主持承擔國家自然科學基金、軍委科技委前沿創新計畫項目、軍委科技委基礎加強項目課題、裝發國防重點實驗室基金(結題優秀)、江蘇省自然科學基金、江蘇省仿生功能材料重點實驗室主任基金等多項科研任務。
學術成果
代表性論文
[1] Jianming Wu, Keju Ji*(通訊作者), ShaobaoLiu, Tingwei Huo, Xipeng Wang, Chongwen Tu, Jiahui Zhao, Kai Deng, ZhendongDai, Stanislav N. Gorb. Bio-inspiredanti-slip and anti-adhesion surface with hemispherical microstructures forwafer handling. TribologyInternational, 2024, 191: 109178. (1區top期刊)
[2] Xipeng Wang, KejuJi*, Shixun Fu, Chongwen Tu, Jianming Wu, Tingwei Huo, Jiahui Zhao,Yuanming Ji, Kai Deng, Haoran Tan, Zhendong Dai. Influence of vibrations andshocks on the stability of biomimetic attachments. Colloids andSurfaces A: Physicochemical and Engineering Aspects. 2024, 682: 132946.
[3] Chongwen Tu, KejuJi*, Jiahui Zhao, Xipeng Wang, Jianming Wu, Tingwei Huo, Yuanming Ji, JianChen, Kai Deng, and Zhendong Dai. Preload-Induced Switchable Adhesion. Small,2023: 2305091.(1區top期刊)
[4] Jiahui Zhao, KejuJi*, Qin Chen, Muhammad Niaz Khan, Chongwen Tu, Ze Ma, Jianming Wu, Jian Chen,Zhendong Dai*. Insect-inspired design strategy for flexible attachments withstrong frictional force and weak pull-off force. Tribology International, 2023,189: 108973.(1區top期刊)
[5] Qian Zhang, KejuJi*, Tingwei Huo, Muhammad Niaz Khan, Zhuoyang Hu, Cong Yuan, Jiahui Zhao,Jian Chen, Zhouyi Wang, Zhendong Dai. Biomimetic Patch with Wicking-breathableand Multi-mechanism Adhesion for Bioelectrical Signal Monitoring. ACSApplied Materials & Interfaces, 2022, 14: 48438−48448. (JCR 1區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 bycuticle structure of Achalinus spinalis. Friction, 2023, 11, 1359–1370 (1區top期刊)
[7] Cong Yuan, KejuJi*, Qian Zhang, Peng Yuan, Yilin Xu, Jing Liu, Tingwei Huo, Jiahui Zhao,Jian Chen, Yi Song, Yi Long, Zhendong Dai. Bionic design and performance ofelectrode for bioelectrical signal monitoring. Advanced materials interfaces,2022, 9: 2200532.(封底論文)
[8] Muhammad NiazKhan, Tingwei Huo, Qian Zhang, Zhuoyang Hu, Jiahui Zhao, Jian Chen, ZhouyiWang, Keju Ji*. Synergetic adhesionin highly adaptable bio-inspired adhesive. Colloidsand Surfaces B: Biointerfaces, 2022, 212:112335. (1區top期刊)
[9] Cong Yuan, KejuJi*, Yiqiang Tang, Zizhuo Wang, Enhua Cui, Jian Chen, Zhendong Dai. Effectivemetal mold method for the production of bionic adhesives based onelectrochemical modifications. Chinese Journal of Aeronautics, 2021,34(4):332-340. (1區top期刊)
[10] Mingcai Wen, YiqiangTang, Cong Yuan, Enhua Cui, Keju Ji*, Zhendong Dai. Effect ofinterconnected metal skeletons on the tribological properties of polyurethaneelastomers. 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 Al2O3layers on the growth of vertically aligned carbon nanotubes for gecko-inspiredadhesive applications. Journal of ManufacturingProcesses, 2018, 33:238-244. (1區top期刊)
[12] Yang Li, KejuJi*, Yali Duan, Guiyun Meng, Zhendong Dai. Effect of Hydrogen Concentrationon 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 withdifferent surface wettabilities. ACS Applied Materials & Interfaces,2016, 8:10005-10013. (JCR 1區top期刊)
[14] Keju Ji,Jing Liu, Jun Zhang, Jia Chen, Zhendong Dai. Super-floatable multidimensionalporous metal foam integrated with a bionic superhydrophobic surface. Journalof Materials Chemistry A, 2014, 2:16589-16593. (JCR 1區top期刊)
[15] Keju Ji,Chen Xu, Huihui Zhao, Zhendong Dai. Electrodeposited lead-foam grids oncopper-foam substrates as positive current collectors for lead-acid batteries. Journalof Power Sources, 2014, 248:307-316. (JCR 1區top期刊)
[16] Keju Ji,Yinsong Xu, Jun Zhang, Jia Chen, Zhendong Dai. Foamed-metal-reinforcedcomposites: Tribological behavior of foamed copper filled with epoxy–matrixpolymer. Materials & Design, 2014, 61:109-116.(1區top期刊)
[17] Keju Ji,Huihui Zhao, Jun Zhang, Jia Chen, Zhendong Dai. Fabrication and electromagneticinterference shielding performance of open-cell foam of a Cu–Ni alloyintegrated with CNTs. Applied Surface Science, 2014, 311:351-356. (JCR1區top)(他引207次)
[18]Keju Ji, Huihui Zhao, Zhenggen Huang, Zhendong Dai. Performance ofopen-cell foam of Cu–Ni alloy integrated with graphene as a shield againstelectromagnetic 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. TribologyTransactions, 2013, 56:615-622.
[20]Keju Ji, Weigen Shan, Yanqiu Xia, Zhendong Dai. The TribologicalBehaviors of Self-Lubricating Composites as Filler in Copper Foam, TribologyTransactions, 2012, 55:1, 20-31.
代表性專利
[1] 姬科舉,王喜鵬,吳建銘,霍婷薇,姬原鳴,沈國遠,曾建,鄧凱。一種適用於真空、高溫環境下的仿生黏附墊及其製備方法,發明專利申請號:202311437369.4.
[2] 姬科舉;吳建銘;姬原鳴;沈國遠;劉靜。一種球冠狀末端凸起直柱陣列的仿生增摩減黏墊,發明專利申請號:202311256880.4.
[3] 姬科舉;朱小磊;姬原鳴;吳建銘;沈國遠;鄧凱。一種基於磁力移動控制的真空黏附力測量裝置,實用新型申請號:202322625780.6
[4] 姬科舉;張佳純;塗沖文;趙家輝;鄧凱;吳建銘;王喜鵬。一種三明治夾層結構仿生摩擦墊及其製備方法,發明專利申請號:202310843448.9,實用新型授權號:ZL202321804008.4.
[5] 姬科舉;張佳純;趙家輝;鄧凱;吳建銘;王喜鵬。一種仿昆蟲足墊的多層級球冠狀增摩減黏墊及其製備方法,發明專利申請號:202310730791.2.
[6] 姬科舉;姬原鳴;王喜鵬;王子卓; 陳健;塗沖文;戴振東。一種可負壓輔助的卷對卷精密輥壓製造裝置與方法,發明專利申請號:202210178293.7, 實用新型授權號:ZL202220392600.7.
[7] 姬科舉;胡卓揚;陳健; 姬原鳴;張遷;戴振東。一種末端膨大的仿生黏附材料高效製造方法,發明申請號:202110621508.3.
[8] 姬科舉;張遷;胡卓揚;崔恩華;陳健;戴振東。一種透氣型仿生黏附材料及其製備方法,發明專利申請號:202110367841.6.
[9] 戴振東、姬科舉、胡卓揚、王周義、陳健、趙家輝、霍婷薇。一種基於仿生黏附材料的微重力環境下肢骨肌鍛鍊裝置,發明專利申請號:202111640166.6.
[10] 姬科舉;戴振東;唐義強;趙春霞;喬元華;甘培贇。Flat-imprintfabrication of bionic adhesive material base on metal mould for micro-through-holenickel. 美國專利:PCT-CN2020-111089.
[11] 戴振東;姬科舉;崔恩華;陳健;袁聰;唐義強。Preparation method of bionic adhesivematerial with tip-expanded microstructural array.美國專利授權號:US 11254566B2.
[12] 姬科舉;崔恩華;王子卓;張遷;胡卓揚;戴振東。一種集成泡沫金屬吸液芯和翅片的散熱器。發明專利申請號:202011124199.0.
[13] 姬科舉;王子卓;崔恩華;張遷;胡卓揚。一種具有六自由度的外牆自動化噴塗設備,發明專利申請號:202011127292.7.
[14] 姬科舉;戴振東;甘培贇;吳文濤;趙春霞;喬元華。一種加成型耐寒耐輻照矽橡膠及其製備方法與套用。發明專利申請號:202010952598.X.
[15] 姬科舉;戴振東;唐義強;趙春霞;喬元華;甘培贇。一種基於微通孔鎳基模具的仿生黏附結構平壓製造方法. 發明專利授權號:ZL202010805845.3.
[16] 姬科舉;戴振東;袁聰;唐義強;陳健;崔恩華。一種末端膨大微結構陣列仿生黏附材料的製備方法,發明專利授權號:ZL201910608241.7.
[17] 姬科舉;王子卓;劉建石;蔣麗;楊靜怡;丁海濤。一種面向高樓外牆的自動化打磨噴塗設備。發明專利授權號:ZL201911004085.X.
[18] 姬科舉;王子卓;楊靜怡;劉建石;蔣麗;丁海濤。一種高樓外牆打磨設備,發明專利授權號:ZL201911004080.7.
[19] 姬科舉;王子卓;王珂星;蔣麗;丁海濤。一種面向高樓外牆的自動化噴塗設備,發明專利授權號:ZL201911004073.7.
[20] 姬科舉;戴振東;唐義強;吳傑;崔恩華;陳健。一種腳狀仿壁虎黏附材料的製備方法,發明專利申請號:201910628830.1.
[21]王周義;翁志遠;尹瀟;姬科舉;戴振東。一種利用水溶性模板製備複雜軟體結構的方法,發明專利申請號:202111425287.9.
[22] 王周義;王劉偉;戴振東;姬科舉;王炳誠。一種兼具黏附與鉤爪混合接觸的仿生柔性抓取裝置。發明專利授權號:ZL201810661922.5.
[23]何青松;戴振東;陸明月;姬科舉;李陽。仿壁虎末端帶電定向碳納米管幹黏附陣列的製備方法。發明專利授權號:ZL201710756785.9.
[24]李宏凱;戴振東;姬科舉;陳高風。仿生黏附的微重力下複雜運動體旋轉消除方法及驗證裝置。發明專利授權號:ZL201610893407.0.
[25]戴振東;姬科舉;趙慧慧。泡沫金屬-石墨烯複合材料及其製備方法。發明專利授權號: ZL201310360855.0.
[26]戴振東;夏延秋;姬科舉。基於多孔泡沫金屬的嵌入式固體自潤滑材料及其製備方法。發明專利授權號: ZL201010254843.6.
主持項目
[1]國家自然科學基金面上項目(52075249),基於超大規模微通孔金屬的仿生黏附結構製造關鍵技術研究,2021/01-2024/12,主持。
[2]軍委科技委基礎加強項目(2019-JCJQ-ZD-356),典型爬行動物的吸附與爬行生物學機制,2020/04-2024/04,共同主持。
[3]攜帶型****技術專題 (AQA23001),2023/06-2024/06,主持.
[4]裝備發展部國防重點實驗室基金(614200419020),空間輻照環境下仿生粘附材料性能退化機理研究,2020/01-2021/12,主持,結題優秀。
[5]軍委科技委前沿創新計畫(17-163-15-XJ-003-005-01),****理化學機理及行為實現技術研究,2017/05-2017/10,主持,結題,通過國防科技成果鑑定,獲航天部門套用證明。
[6]江蘇省自然科學基金青年基金(BK20170796),開孔泡沫金屬的流固耦合特性及其在散熱器件中的套用,2017/07-2020/06,主持,已結題。
[7]江蘇省仿生功能材料重點實驗室主任基金,仿生功能材料基地建設,主持;[8] 南京航空航天大學教改項目(2020YJXGG14),創新名城建設背景下的研究生校企協同培養模式探索與實踐,2020.12~2022.12,主持。
