樊康旗

个人信息:Personal Information

教授

性别:男

毕业院校:西安电子科技大学

学历:博士研究生毕业

学位:博士学位

在职信息:在岗

所在单位:机电工程学院

学科:智能机电系统及测控技术

办公地点:Main Building III-220
North Campus

联系方式:kangqifan@gmail.com kqfan@mail.xidian.edu.cn

其他联系方式Other Contact Information

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个人简介:Personal Profile

工学博士,教授,博士生导师。
于西安电子科技大学获得学士、硕士、博士学位;
2011年7月至2012年7月赴美国堪萨斯州立大学(Kansas State University)从事 新能源 的学术交流;
2014年6月至2015年6月赴加拿大埃尔伯特大学(University of Alberta)从事 机械能俘获发电技术 的学术交流;
2021年11月---至今,北京纳米能源与系统研究所,访问学者。

入选斯坦福大学公布的全球前2%科学家。

研究方向:

1. 智能结构和机构;2. 俘能发电;3. 自驱动智能传感系统;4. 无源智慧物联网

招生信息:

博士

仪器科学与技术 

硕士

学硕:仪器科学与技术(学术)---智能机电系统及测控技术(学科方向)

专硕:电子信息(专业)---仪器仪表工程(专业领域方向)


目前,研究团队承担 国家自然科学基金、科技部重点研发计划、陕西省交通厅智慧交通、企业振动传感等科研项目。

新增:2024年度陕西省电子学会科学技术二等奖(排名第一)

其他信息:https://web.xidian.edu.cn/kqfan/paper.html

近3年论文

1. Shizhong Zhao, Kangqi Fan*, Zewei Ren, Jiuling Zhu, Cheng Li, Xuan Zhang, Hua He, Zehao Hou. Robust maglev hybrid nanogenerator with an airflow-based motion conversion mechanism for exploiting low-frequency mechanical energy. Nano Energy, 2024, 130: 110131. (影响因子 16.3; 中科院 一区; Top Journal

2. Wang Zhen, Fan Kangqi*, Zhao Shizhong, Wu shuxin, Zhang Xuan, Zhai Kangjia, Li Zhiqi, He Hua. Archery-inspired catapult mechanism with controllable energy release for efficient ultralow-frequency energy harvesting. Applied Energy, 2024, 356: 122400. (影响因子 10.1; 中科院 一区; Top Journal

3. Shanghao Gu, Weihan Xu, Kunling Xi, Anxin Luo, Kangqi Fan*, Fei Wang. High-performance piezoelectric energy harvesting system with anti-interference capability for smart grid monitoring. Renewable Energy, 2024, 221: 119742.  (影响因子 8.1 中科院 一区; Top Journal

4. Chao Zhang, Boren Zhang, Tao Wen, Kangqi Fan*. An efficient harvester with an autoregulatory driving arm to capture random wind energy. Sensors and Actuators A: Physical2024, 368: 115125. (影响因子 4.0; 中科院 

5. Ma Xiaoyu, Fan Kangqi*, Zhang Xuan, Zhao Shizhong, He Hua, Zhang Chao, Tao Kai. A snap-through vibration-rotation modulation mechanism for high-performance low frequency enegry harvester. Mechanical Systems and Signal Processing. 2023, 202: 110717. IF 8.0; 中科院 ; Top Journal

6. Li Rongchun, Fan Kangqi*, Ma Xiaoyu, Wen Tao, Liu Qingli, Gao Xianming, Zhu Jiuling, Zhang Yan. A rotational energy harvester with a semi-flexible one-way clutch for capturing low-frequency vibration energy. Energy, 2023, 281: 128266. IF 8.2; 中科院 ; Top Journal

7. Tan Qinxue, Li Rongchun, Ma Xiaoyu, Zhao Hongyuan, Zhao Shizhong, Fan Kangqi*, Zhang Chao, Zhu Zhaofei. A finger-snapping inspired bistable mechanism for converting low-frequency vibrations to high-speed rotation. Smart Materials and Structures, 2023, 32, 7: 07LT01. 快讯,中科院 

8. Fan Kangqi*, Wang Chenyu, Zhang Yan, Guo Jiyuan, Li Rongchun, Wang Fei, Tan Qinxue. Modeling and experimental verification of a pendulum-based low-frequency vibration energy harvester. Renewable Energy, 2023, 211: 100-111. IF 8.1; 中科院 一区; Top Journal

9. Tao Kai, Zhao Zhe, Mao Xinhui, Shen Weihe, Qiu Changquan, Qi Huan, Ye Tao, Zhang Xingxu, Wu Jin, Fan Kangqi*, Chang Honglong, Yuan Weizheng. Direct-current long-lasting and highly efficient electret energy harvesting from ultra-low-frequency motions using toothed clutch mechanism. Nano Energy, 2022, 105: 107998. IF 16.3; 中科院 一区; Top Journal

10. Zhang Yan, Fan Kangqi*, Zhu Jiuling, Wu Shuxin, Zhang Sheng, Cheng Tinghai, Wang Zhong Lin. Multi-purpose triboelectric-electromagnetic hybrid nanogenerator with a mechanical motion-controlled switch for harvesting low-frequency energy. Nano Energy, 2022, 104: 107867. IF 16.3; 中科院 一区; Top Journal

11. Zhang Sheng, Jing Zhaoxu, Wang Xinxian, Fan Kangqi, Zhao Hongwei, Wang Zhong Lin. Enhancing Low-Velocity Water Flow Energy Harvesting of Triboelectric–Electromagnetic Generator via Biomimetic-Fin Strategy and Swing-Rotation Mechanism. ACS Energy Letters, 2022, 7: 4282-4289. IF 23.991中科院 一区; Top Journal

12. Fan Kangqi*, Chen Chenggen, Zhang Baosheng, Li Xiang, Wang Zhen, Cheng Tinghai, Wang Zhong Lin. Robust triboelectric-electromagnetic hybrid nanogenerator with maglev-enabled automatic mode transition for exploiting breeze energy. Applied Energy, 2022, 328: 120218. IF 11.446; 中科院 一区; Top Journal

13. Kangqi Fan*, Xia Pengwei, Li Rongchun, Guo Jiyuan, Tan Qinxue, Wei Danmei. An innovative energy harvesting backpack strategy through a flexible mechanical motion rectifier. Energy Conversion and Management, 2022, 264: 115731. (IF 11.533; 中科院 一区; Top Journal

14. Wu Yipeng, Li Sen, Fan Kangqi, Ji Hongl, Qiu Jinhao. Investigation of an ultra-low frequency piezoelectric energy harvester with high frequency up-conversion factor caused by internal resonance mechanism. Mechanical Systems and Signal Processing, 2022, 162: 108038. IF 8.934; 中科院 一区; Top Journal

学生获奖:

2024年  

谭钦雪    2024年度陕西省电子学会科学技术二等奖(排名第二)(博士毕业,进入长安大学任教)

马晓宇    校级优秀硕士学位论文

王   振    Best Paper Finalist, VEH2024

2023年  

马晓宇    国家奖学金

李荣春    国家奖学金

吴术新    VEH2023 Best Paper Award

赵宏远    VEH2023 Best Paper Award

谭钦雪    VEH2023 Best Oral Presentation Award

杨瑞莹    2023陕西省自动化学会自动化类本科优秀毕业设计大赛特等奖

张  妍     校级优秀硕士学位论文

2022年  

夏鹏伟    优秀成果奖

韦丹梅    优秀成果提名奖

王晨宇    优秀成果提名奖

郭纪元    机电工程学院2021研究生创新基金项目

陈程根    机电工程学院2021研究生创新基金项目

2021年  

王晨宇    国家奖学金

刘   金    国家奖学金

夏鹏伟    国家奖学金

谭钦雪   思仪Ceyear奖学金、西安电子科技大学2021春季优秀博士学位论文资助、机电工程学院2021拔尖研究生优秀学位论文资助(共4人)

刘   金   机电工程学院2021拔尖研究生优秀学位论文资助(共1人)、机电工程学院2021研究生创新基金项目

梁   赓   优秀成果奖

郝佳雨   优秀成果奖

屈恒恒   优秀成果奖  

2020年  

屈恒恒   国家奖学金

蔡美玲  优秀成果奖

张艺伟  优秀成果奖

2019年  

蔡美玲   国家奖学金

张艺伟   国家奖学金

郝佳雨   国家奖学金

梁    赓   国家奖学金

学术交流

1. VEH2024 (The 5th International Conference on Vibration and Energy Harvesting Applications)Auckland, Invited Talk, Session Chair

2. AISI3S2024 (The 1st International Conference on AI Sensors & The 10th International Symposium on Sensor Science) Singapore, Invited Talk.

3. IWVEHC2024 (The International Workshop on Vibration Energy Harvesting and Control), Shenzhen,Invited Talk

4. NENS2023 (The 6th International Conference on Nanoenergy and Nanosystems), Beijing. (团队参会人员:赵宏远、朱九凌、赵时仲)

5. VEH2023 (The 4th International Conference on Vibration and Energy Harvesting Applications)Xiangtan. Session Chair. (团队参会人员:谭钦雪、赵宏远、吴术新)

6. NENS2021 (The 5th International Conference on Nanoenergy and Nanosystems), Beijing, Oct. 22-24, 2022.

7. VEH2021(The 3rd International Conference on Vibration and Energy Harvesting Applications)Local Organizing Chair, Xi'an. Jul. 9, 2021.

8. An arc-shaped electromagnetic energy harvester for ultra-low frequency vibrations and swing motions. The 2019 SPIE Active and Passive Smart Structures and Integrated Systems XIII, Denver,  

    Colorado, U.S. Mar. 3, 2019. Invited Talk.

9. Ultra-low frequency mechanical energy harvesting and its applications. Organized by National Science Foundation of China, Nanning. Jan. 12, 2020. Invited Talk.

10. Investigation of two-degree-of-freedom cylindrical electromagnetic energy harvesters. The 2nd International Conference on Modeling in Mechanics and Materials, Suzhou. Mar. 29, 2019, Invited Talk.

11. A twisting vibration based energy harvester for ultra-low frequency excitations. The 2nd International Conference on Vibration and Energy Harvesting Applications (VEH2019), Shanghai. Jul. 13, 2019.  Invited Talk.

12. A twisting vibration based energy harvester for ultra-low frequency excitations. The 19th International Symposium on Applied Electromagnetics and Mechanics, Nanjing. Sept. 15, 2019. Invited Talk.

下列期刊杰出审稿人

Energy Conversion and Management JCR 一区

Nano Energy JCR 一区

Applied Energy JCR 一区

Energy JCR 一区

Mechanical Systems and Signal Processing JCR 一区

Applied Physics Letters JCR 一区

Smart Materials and Structures JCR 一区

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