发布时间:2021-09-06 浏览量:次
所在部门(必填) (系部)智能制造系 823793129@qq.com | |
研究方向 | 微机电系统(mems)、自驱动系统、水下传感检测系统、可穿戴传感器与电子皮肤等 |
基本介绍 | 李桂钟,男,2021年3月毕业于哈尔滨工业大学,获工学博士学位。主持/参与国家科学自然基金2项,广西自然科学基金项目1项,深圳市基础研究(学科布局)项目1项,温州市项目多项。发表科技论文二十余篇,其中以第一/通讯作者发表sci一区top论文6篇,二区top论文4篇。获得授权发明专利6项。 |
主要工作经历 | 2021.04-至今,温州大学,讲师 |
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学术成果 | 1.dielectric-enhanced, high-sensitivity, wide-bandwidth, and moisture-resistant noncontact triboelectric sensor for vibration signal acquisition. acs applied materials & interfaces, 2024, 16(6): 7904-7916. (sci,二区top,if=9.5,第一通讯作者) 2.a waterproof, breathable nitrocellulose-based triboelectric nanogenerator for human-machine interaction. nano energy, 2023, 114: 108649. (sci,一区top,if=17.6,第一通讯作者) 3.breathable, transparent, waterproof, flexible and high-output triboelectric nanogenerators for sport monitoring and speech recognition." journal of materials chemistry a 2024, 12(1): 495-508. (sci,二区top,if=11.9,第一通讯作者) 4.performance enhancement of transparent and flexible triboelectric nanogenerator based on one-dimensionally hybridized copper/polydimethylsiloxane film. nano energy 2022, 99: 107423. (sci,一区top,if=19.069,第一通讯作者) 5.contribution of ferromagnetic medium to the output of triboelectric nanogenerators derived from maxwell's equations. advanced energy materials, 2021, 11(21): 2003921.(sci,一区top,if=29.368,二作) 6.a high-performance transparent and flexible triboelectric nanogenerator based on hydrophobic composite films. nano energy, 2020,75: 104918.(sci,一区top,if=17.881,一作) 7.high‐performance transparent and flexible triboelectric nanogenerators based on pdms‐ptfe composite films[j]. advanced electronic materials, 2019, 5(4): 1800846. (sci,二区,if=7.295,一作) 8.one-pot synthesis of copper nanowire decorated by reduced graphene oxide with excellent oxidation resistance and stability[j]. applied surface science, 2019, 467: 158-167. (sci,一区top,if=6.707,共同一作) 9.high-performance triboelectric nanogenerator with double-surface shape - complementary microstructures prepared by using simple sandpaper templates[j]. acs sustainable chemistry & engineering, 2018, 6(2): 2283-2291.. (sci,一区top,if=8.198,共同一作) 10.electrical properties of ac3b4o12-type perovskite ceramics with different cation vacancies[j]. materials research bulletin, 2015, 65: 260-265. (sci,二区,if=4.641,一作) 11.la2o3 modified 0.4(ba0.8ca0.2) tio3–0.6bi(mg0.5ti0.5)o3 ceramics for high-temperature capacitor applications [j]. ceramics international, 2015, 41(9): 11057-11061. (sci,一区top,if=4.527,二作) |
