个人简历:河南周口人
联系方式:15224981149
爱好:跑步,篮球
研究方向:摩擦纳米发电机结合机器学习
个人荣誉:
2020年全国大学生数学竞赛河南省一等奖
2020年蓝桥杯编程竞赛全国三等奖
2020年美国大学生数学建模竞赛一等奖
科研成果:
1. Zhi Xinrong , Ma Shifan, Xia Yifan, Yang Biao, Zhang Siyu, Liu Kangting, Li Mingyuan, Li Shuhan, Wan Peiyuan,* and Wang Xin.* Hybrid Tactile Sensor Array for Pressure Sensing and Tactile Pattern Recognition. Nano Energy, 2024, 125, 109532.
2. Kangting Liu, Yifan Xia, Xinrong Zhi, Shuhan Li, Siyu Zhang, Biao Yang, Mingyuan Li, Xin Wang*, and Caofeng Pan.* Self-powered bimodal tactile imaging device for ultrasensitive pressure sensing, real-time visualization recognition, and intelligent control. Mater. Today, 2024, MATTOD-D-24-00729R1 .
3. Yifan Xia, Yan Zhu, Xinrong Zhi, Wenyu Guo, Biao Yang, Siyu Zhang, Mingyuan Li, Xin Wang,* and Caofeng Pan.* Transparent Self-Healing Anti-freezing Ionogel for Monolayered Triboelectric Nanogenerator and Electromagnetic Energy-Based Touch Panel. Advanced Materials, 2024, 36, 2308424.
4. Li Shuhan, Xia Yifan, Zhang Siyu, Liu Kangting, Yang Biao, Li Mingyuan, Zhi Xinrong, and Wang Xin.* Wearable patterned single electrode-based triboelectric nanogenerator for peak-encoded interface. Nano Energy, 2024, 124, 109421.
5.Yang Biao, Xia Yifan, Zhi Xinrong, Liu Kangting, Li Mingyuan, and Wang Xin.* Low-cost wearable multifunctional antennas based on laser-induced copper for wireless information and power transmission. Device, 2024, 2(3), 100246.
6.Yang Biao, Xia Yifan, Zhi Xinrong, Liu Kangting, Li Mingyuan, and Wang Xin.* Low-cost wearable multifunctional antennas based on laser-induced copper for wireless information and power transmission. Device, 2024, 2(3), 100246.
7. Li Qingqin, Zhi Xinrong, Xia Yifan, Han Shilei, Guo Wenyu, Li Mingyuan, and Wang Xin.* Ultrastretchable High-Conductive MXene-Based Organohydrogels for Human Health Monitoring and Machine-Learning-Assisted Recognition. ACS Appl. Mater. Interfaces,2023, 15, 15, 19435-19446.
8.Chen Delu, Zhi Xinrong, Xia Yifan, Li Shuhan, Xi Benbo, Zhao Chun,* and Wang Xin.* A Digital−Analog Bimodal Memristor Based on CsPbBr3 for Tactile Sensory Neuromorphic Computing . Small, 2023, 19, 2301196.
毕业去向:北京
