Understanding the evolution of mechanical and electrical properties of wet-spun PEDOT:PSS fibers with increasing carbon nanotube loading
文献类型: 外文期刊
第一作者: Shao, Yanqiu
作者: Shao, Yanqiu;Zhao, Xu;Liu, Lin;Liu, Chuang;Zhao, Xu;Liu, Chuang;Luo, Zirong;Kong, Na;Tao, Jinlong;Zhang, Jizhen;Kong, Na;Zhang, Jizhen
作者机构:
关键词: PEDOT; PSS; Carbon nanotube; Fiber; Mechanical properties; Supercapacitors
期刊名称:COMPOSITES COMMUNICATIONS ( 影响因子:8.0; 五年影响因子:7.5 )
ISSN: 2452-2139
年卷期: 2023 年 40 卷
页码:
收录情况: SCI
摘要: Unprecedented demands for advanced fiber materials have been raised by the quick development of wearable intelligent devices. It is still a significant problem to increase the mechanical qualities of fibers without compromising their chemical properties. The impact of different carbon nanotube (CNT) loading on the physical properties of wet-spun poly(3,4-ethylenedioxythiophene):poly(styrene sulfonate) (PEDOT:PSS) fibers are explored in depth along with a wet spinning process for the continuous fabrication of PEDOT:PSS/CNT hybrid fibers. We discovered that the main challenge in a mechanically reinforced system of PEDOT:PSS fibers is to prevent the binding and aggregation of CNT within the fibres; enhancement is typically accomplished at 5 wt% CNT loadings. On the other hand, the conductivity of PEDOT:PSS fibers rises as CNT content increases. By applying the new understanding, the highly conductive PEDOT:PSS/CNT hybrid fiber exhibits greater rate performance and cycle stability in the electrochemical test is obtained. The PEDOT:PSS/CNT hybrid fiber-based fiber-shaped supercapacitors (FSC) have been assembled and they show good long-term cycle stability. Meanwhile, energy and power densities reach -16.05 mW h cm-3 and -13292 mW cm-3, respectively. This work provides a favorable reference for the mass production of fiber electrodes with high mechanical properties for energy storage.
分类号:
- 相关文献
作者其他论文 更多>>
-
Hierarchical structure with dielectric/magnetic network from Kapok fiber with enhanced microwave attenuation capacity
作者:Zhao, Pengfei;Wang, Rui;Tao, Jinlong;Liao, Lusheng;Peng, Zheng;Song, Ximei;Zhao, Yanfang;Liao, Jianhe
关键词:Kapok fiber; Carbon microtube; Hierarchical structure; Electromagnetic coupling; Microwave-absorbing performance
-
Highly stable and antifungal properties on the oilseed rape of Cu3(MoO4)2(OH)2 nanoflakes prepared by simple aqueous precipitation
作者:Zhao, Xu;Liu, Yi;Li, Shaozhen;Xu, Lisha;Mei, Yunjun;Chen, Luocheng;Zheng, Anqi;Yin, Kuibo;Xiao, Xiaolu;Sun, Xuecheng;Zhang, Yifu
关键词:
-
Rotation Culture of Macroalgae Based on Photosynthetic Physiological Characteristics of Algae
作者:Cheng, Xiaopeng;Zhao, Xu;Lin, Jun;Zhang, Shouyu;Wang, Zhenhua;Huang, Hong;Wang, Kai;Chen, Jianqu;Cheng, Xiaopeng
关键词:macroalgae; rotation culture; photosynthetic characteristics; ecological effect; physiological suitability
-
Selection and validation of reference genes for normalization of gene expression in Floccularia luteovirens
作者:Ni, Yanqing;Li, Wensheng;Zhao, Xu;Ni, Yanqing;Zhang, Qin;Li, Wensheng;Cao, Luping;Feng, Rencai;Zhao, Zhiqiang;Zhao, Xu;Zhang, Qin;Feng, Rencai;Zhao, Zhiqiang;Zhao, Xu;Cao, Luping
关键词:Floccularia luteovirens; RT-qPCR; Abiotic stresses; Reference gene
-
Long-term successive biochar application increases plant lignin and microbial necromass accumulation but decreases their contributions to soil organic carbon in rice-wheat cropping system
作者:Chen, Zhaoming;He, Lili;Ma, Jinchuan;Ma, Junwei;Ye, Jing;Yu, Qiaogang;Zou, Ping;Sun, Wanchun;Lin, Hui;Wang, Feng;Wang, Qiang;Zhao, Xu
关键词:amino sugars; biochar; lignin phenols; microbial necromass; paddy field; soil organic carbon
-
Variation in the affinity of three representative avian adenoviruses for the cellular coxsackievirus and adenovirus receptor
作者:Song, Yapeng;Tao, Mingyue;Liu, Lin;Wang, Yang;Zhao, Zhenchao;Huang, Zongmei;Gao, Wenming;Li, Xinsheng;Wei, Qiang
关键词:Avian adenovirus; fibre; crystal structure; coxsackievirus-adenovirus receptor; affinity variation
-
Metabolite changes in cucumber xylem sap under rhizosphere aeration
作者:Chen, Hongbo;Zhao, Xu
关键词:rhizosphere CO2; rhizosphere O2; xylem sap; cucumber growth
