范曾
个人信息Personal Information
副研究员
博士生导师
硕士生导师
主要任职:Associate Research Fellow
其他任职:副研究员 硕士生导师
性别:女
出生日期:1988-03-26
毕业院校:新加坡国立大学
学位:博士
所在单位:物理学院
办公地点:Room 331, School of Physics, DLUT
联系方式:+86-15840672983
电子邮箱:fanzeng@dlut.edu.cn
扫描关注
- [21]Xu, Shihong, 范曾, Yang, Shuaitao, Zhao, Yongpeng, 潘路军.Flexible, self-powered and multi-functional strain sensors comprising a hybrid of carbon nanocoil...[J],CHEMICAL ENGINEERING JOURNAL,2022,404
- [22]Guan, Xin, 潘路军, 范曾.Flexible, Transparent and Highly Conductive Polymer Film Electrodes for All-Solid-State Transpare...[J],MEMBRANES,2022,11(10)
- [23]Xia, Lichen, Huang, Hui, 范曾, Hu, Dianwen, 张冬梅, Khan, Abdul Sammed, Muhammad Usman, 潘路军.Hierarchical macro-/meso-/microporous oxygen-doped carbon derived from sodium alginate: A cost-...[J],MATERIALS DESIGN,2022,182
- [24]Zhao, Yongpeng, 潘路军, 张皓, Yang, Xuan, 黄辉, Guolin, Cong, Tianze, Zuo, Xueqing, 范曾, Shuaitao.In situ construction of hierarchical core-shell Fe3O4@C nanoparticles-helical carbon nanocoil hyb...[J],CARBON,2022,171:395-408
- [25]李成伟, 张冬梅, Deng, Chenghao, Wang, Peng, Hu, Yunping, 宾月珍, 范曾, 潘路军.High performance strain sensor based on buckypaper for full-range detection of human motions[J],Nanoscale,2022,10(31):14966-14975
- [26]Wen, Ningxuan, 潘路军, 范曾, Yang, Shuaitao, Zhao, Yongpeng, 李成伟, Cong, Tianze, Huang, Hui, 张建伟, Guan, Xin.High-performance stretchable thermoelectric fibers for wearable electronics[J],Chemical Engineering Journal,2022,426
- [27]Xu, Shihong, 范曾, Yang, Shuaitao, Zuo, Xueqing, Guo, Yuan, Chen, Huan, 潘路军.Highly Flexible, Stretchable, and Self-Powered Strain-Temperature Dual Sensor Based on Free-Stand...[J],ACS SENSORS,2022,6(3):1120-1128
- [28]Xu, Shihong, 范曾, 李成伟, Wang, Peng, Sammed, Khan Abdul, 潘路军.Investigation of strain sensing mechanisms on ultra-thin carbon nanotube networks with differen...[J],CARBON,2022,155:421-431
- [29]Zhao, Yongpeng, 潘路军, Wang, Jianzhen, Huang, Hui, Cong, Tianze, Yang, Shuaitao, Chen, Huan, Qin, Jiaqi, Muhammad Usman, 范曾.Growth of Carbon Nanocoils by Porous alpha-Fe2O3/SnO2 Catalyst and Its Buckypaper for High Effi...[J],纳微快报 英文,2022,12(1)
- [30]李成伟, Yang, Shuaitao, Guo, Yuan, 黄辉, Chen, Huan, Zuo, Xueqing, 范曾, 梁宏伟, 潘路军.Flexible, multi-functional sensor based on all-carbon sensing medium with low coupling for ultrah...[J],CHEMICAL ENGINEERING JOURNAL,2022,426
- [31]温柠暄, 李成伟, 潘路军, 范曾, 杨帅涛, 赵永鹏, 丛天泽, 许世红, 张豪, 王建桢, 黄晖.Highly conductive, ultra-flexible and continuously processable PEDOTPSS fibers with high thermoel...[J],Nano Energy,2022,78:105361-
- [32]Cong, Tianze, Huang, Yingying, Zhao, Yongpeng, 黄辉, 张冬梅, 李成伟, 范曾, 潘路军.Extremely sensitive and reusable surface-enhanced Raman scattering substrate based on 3D Ag-titan...[J],JOURNAL OF ALLOYS AND COMPOUNDS,2022,859
- [33]Yang, Shuaitao, 李成伟, Chen, Xiyu, Zhao, Yongpeng, Zhang, Hao, Wen, Ningxuan, 范曾, 潘路军.Facile Fabrication of High-Performance Pen Ink-Decorated Textile Strain Sensors for Human Motio...[J],ACS Applied Materials Interfaces,2022,12(17):19874-19881
- [34]Zhang, Siyao, 范曾, 王昕炜, Zhongyin, Ouyang, Jianyong.Enhancement of the thermoelectric properties of PEDOT:PSS via one-step treatment with cosolvent...[J],Journal of Materials Chemistry A,2022,6(16):7080-7087
- [35]范曾, 张耀允, 潘路军, Jianyong Ouyang, Qian Zhang.Recent developments in flexible thermoelectrics from materials to devices[J],Renewable and sustainable energy reviews,2021,137:110448-
- [36]温柠暄, 李成伟, 潘路军, 范曾, 杨帅涛, 赵永鹏, 丛天泽, 许世红, 张豪, 王建桢, 黄晖.Highly conductive, ultra-flexible and continuously processable PEDOTPSS fibers with high thermoel...[J],Nano Energy,2021,78:105361-
- [37]姜东岳, 范曾, 王洪晨, 徐敏义, 陈贵军, 宋永臣, Zhong Lin Wang.Triboelectric nanogenerator powered electrowetting-on-dielectric actuator for concealed aquatic m...[J],ACS Nano,2020
- [38]范曾, Jianyong Ouyang.Thermoelectric properties of PEDOT:PSS[J],Advanced Electronic Materials,2019,1800769-
- [39]Solution processed intrinsically conductive polymer films with high thermoelectric properties and...[J],Journal of Materials Chemistry A,2018,6(47):24496-24502
- [40]High performance strain sensor based on buckypaper for full-range detection of human motions[J],Nanoscale,2018,10(31):14966-14975